KR101724769B1 - Methylobacterium aquaticum for Odorless Bioflim-Coated Evaporator Core and uses thereof - Google Patents
Methylobacterium aquaticum for Odorless Bioflim-Coated Evaporator Core and uses thereof Download PDFInfo
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Abstract
본 발명은 공조장치에서 냄새를 유발시키지 않는 무취 바이오필름으로의 코팅에 이용되는 미생물 메틸로박테리움 아쿠아티쿰 (Methylobacterium aquaticum) 및 이를 이용하여 바이오필름으로 코팅시킨 공조장치 내 냄새를 유발시키지 않는 무취 에바코어에 관한 것이다.
본 발명의 무취 미생물 및 무취 에바코어를 통해 공조 장치에 있어서 냄새를 유발하는 미생물의 증식을 억제시킬 수 있어 종래 대비 쾌적한 실내 환경이 조성될 수 있다.The present invention relates to a microbial methyl bromide microorganism used for coating with an odorless biofilm which does not cause odor in an air conditioning apparatus Aqua tikum (Methylobacterium The present invention relates to an odorless EVA core which does not cause odor in an air conditioner coated with a biofilm using the same.
The odorless microorganisms and the odorless eva cores of the present invention can inhibit the growth of microorganisms causing odors in the air conditioner, thereby providing a pleasant indoor environment.
Description
본 발명은 공조 장치에 있어서 냄새를 유발하는 미생물의 증식을 억제시키기 위해 무취 미생물로 바이오필름으로 코팅시킨 무취 에바코어 및 이의 제조 방법과 에바코어에 냄새를 유발하지 않는 미생물 메틸로박테리움 아쿠아티쿰에 관한 것이다.
The present invention relates to an odorless EVA core coated with a biofilm as an odorless microorganism in order to inhibit the growth of microorganisms causing odor in an air conditioner, a method for producing the same, and a method for producing microbial methylobacterium It is about the aquaticum .
깨끗한 공기는 인간의 건강과 웰빙에 기본으로 인식된다. 예를들면, 밀폐된 건물에서 불만족스러운 실내 공기질로 이끌어 갈 수 있는 두 가지 중요한 요인을 가지고 있다. 하나는 제거되거나 희석되어야 할 많은 양의 실내공기오염물질을 야기하는 건물 자체와, 다른 한 요인은 인간 활동에 의해 발생되는 냄새의 발생이다. Clean air is recognized as the basis for human health and well-being. For example, it has two important factors that can lead to unsatisfactory indoor air quality in an enclosed building. One is the building itself, which causes large amounts of indoor air pollutants to be removed or diluted, and the other is the generation of odors generated by human activities.
공조 시스템은 공기의 온도, 습도, 기류 및 청정도를 조화시키는 공기 조화에 목적을 두어 실내의 온도를 낮추고 실내 환경을 최적화시키는 시스템이다. 이러한 공조 시스템은 생활 수준의 향상으로 인해 보급률이 점점 증가하고 있다. 공조 시스템의 보급률의 증가로 기본적인 기능은 많은 발전이 있어왔으나, 실내 공기의 질을 위한 환경적 측면으로는 아직 해결해야 할 문제가 많이 남아있다. The air conditioning system is a system that optimizes the indoor environment by lowering the indoor temperature with the aim of harmonizing air temperature, humidity, air flow and cleanliness. These air conditioning systems are increasing in penetration rate due to the improvement of living standards. There have been many improvements in the basic functions due to the increase of the air conditioning system, but there are still many problems to solve due to the environmental aspect for the indoor air quality.
공조 시스템 중에 특히, 에어컨 냄새의 원인은 곰팡이와 세균의 대사 물질이 에어컨 냄새인 것으로 알려져 있으나 해당 곰팡이와 세균이 구체적으로 어떠한 대사 물질을 얼마나 분비하는지에 대한 구체적인 자료는 아직까지 밝혀지지 않은 상태에 있다.In air conditioning systems, air-conditioner odor is known to be caused by odor of mold and bacteria, but specific data on how specific fungi and germs secrete certain metabolites are not yet known .
공조 장치의 구조상, 블로워를 통과한 모든 공기는 에바코어를 통과하게 되는데, 차가운 냉매와 공기의 열교환시, 에바코어 표면에는 온도차에 따른 응축수 응결 현상이 발생되고, 이 응축수 응결이 지속되면 에바코어 표면에는 곰팡이 및 세균이 서식, 번식하기 좋은 환경이 제공된다. 외부 공기에 노출된 에바코어에 곰팡이 및 세균이 증식한 상태에서, 에바코아 표면에 증식한 세균의 대사 물질로 미생물의 휘발성유기화합물(mVOCs)이 발생하며, 에바코어를 통과한 공기가 실내로 송풍되면, 이때 미생물에 의해 발생한 휘발성유기화합물에 의해서, 장기간 사용시에 실내는 곰팡이 및 세균에 의한 악취에 노출될 수 있다. In the structure of the air conditioner, all the air passing through the blower passes through the evaporator core. When heat exchange is performed between the cold refrigerant and the air, condensation condensation phenomenon occurs on the evaporator surface depending on the temperature difference. Is provided with a good environment for fungi and bacteria to form and propagate. When fungi and bacteria are proliferated on the EVA core exposed to the outside air, volatile organic compounds (mVOCs) of the microorganisms are generated as the metabolites of the bacteria that have proliferated on the surface of the EVA core, and air passing through the EVA core is blown into the room The volatile organic compounds generated by the microorganisms may expose the room to odors caused by fungi and bacteria during long-term use.
악취가 발생하는 에바코어 표면은 장기간의 사용에 따라 바이오 필름으로 덮여 있고, 이들은 박테리아, 셀클러스터, EPS로 구성되는데, EPS는 단백질(Protein), 폴리사카라이드, 폴리우론산(Polyuronic acid), 핵산(Nucletic), 지질(Lipid) 등의 다양한 성분을 포함하는 바, 에바코어 표면에서는 다양한 세균, 곰팡이가 바이오 필름을 양분 삼아 증식하며 대사물질로 미생물에 의한 유기화?d물(mVOCs)를 배출하게 되며 이것이 에어컨 악취의 여러 요인 중에 부폐취로 알려져 있다.The EVA core surface, which generates bad odors, is covered with biofilm according to long-term use. They are composed of bacteria, cell clusters and EPS. EPS is composed of protein, polysaccharide, polyuronic acid, Nucletic, and lipid. On the surface of EVA core, various bacteria and fungi multiply as biofilms and they release metabolites (mVOCs) by microorganisms as metabolites. This is known to be among the many factors of air conditioner odor.
이에 본 발명자는 대한민국 공개특허 10-2012-0020309에서 에바코어 표면에 악취의 원인을 제공하는 세균, 곰팡이의 증착 및 번식이 방지될 수 있도록 에바코어 표면에 무취 혹은 향기나는 특정 미생물로 형성된 바이오필름을 코팅시키는 바이오필름층이 코팅된 에바코어를 발명한 바 있다. Accordingly, the present inventor has proposed a biofilm formed of an odorless or fragrant microorganism on the surface of Eva core in order to prevent deposition and propagation of bacteria and fungi on the surface of Eva core, Coated with a biofilm layer coated on the surface of the biofilm.
하지만, 상기 발명에서는 어떠한 세균이 무취 미생물인지에 대한 확인이 미흡한 상태에 있었다.However, in the above-mentioned invention, it is not confirmed whether any bacteria are odorless microorganisms.
상기한 배경기술로서 설명된 사항들은 본 발명의 배경에 대한 이해 증진을 위한 것일 뿐, 이 기술분야에서 통상의 지식을 가진 자에게 이미 알려진 종래기술에 해당함을 인정하는 것으로 받아들여져서는 안 될 것이다.
It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as adhering to the prior art already known to those skilled in the art.
이에 본 발명자들은 공조 장치에 있어서 냄새를 유발하는 미생물의 증식을 억제시키기 위해 어떠한 미생물이 무취 미생물로서 바이오필름으로 코팅시켰을 때 무취 에바코어로 이용가능한지에 대하여 연구한 결과 에바코어에 냄새를 유발하지 않는 미생물 메틸로박테리움 아쿠아티쿰을 확인하였다.Accordingly, the present inventors have studied whether any microorganisms can be used as odorless EVA cores when they are coated with biofilm as odorless microorganisms in order to inhibit the growth of odor-causing microorganisms in an air conditioner. As a result, Microbial methyl bromide Aquaticum was identified.
본 발명은 공조장치에서 냄새를 유발시키지 않는 무취 바이오필름으로의 코팅에 이용되는 미생물 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 제공하는 것을 그 목적으로 한다.The present invention relates to a microbial methyl bromide microorganism used for coating with an odorless biofilm which does not cause odor in an air conditioning apparatus To provide an aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) and for that purpose.
본 발명은 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이 바이오필름으로 코팅된 공조장치 내 냄새를 유발시키지 않는 무취 에바코어를 제공하는 것을 그 목적으로 한다.The present invention relates to the use of methyl < AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) which does not cause odor in an air conditioner coated with biofilm.
본 발명은 The present invention
(i) 에바코어 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P) 번식에 유리한 배지를 도포하는 단계;(i) On the surface of the EVA core , methylobacterium Aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) applying the medium favorable to the propagation;
(ii) 상기 배지가 도포된 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 부착하는 단계; 및(ii) a methyl on the surface of the medium is applied tumefaciens Affixing the aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P); And
(iii) 상기 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 번식시켜 바이오필름을 형성하는 배양 단계;(iii)Methyl bromide Aquatiquem HKMC-1 (Methylobacterium aquaticum HKMC-1) (KCCM11325P) to form a biofilm;
를 포함하는 공조장치 내 냄새를 유발시키지 않는 무취 에바코어 제조 방법을 제공하는 것을 목적으로 한다.
And an object of the present invention is to provide a method for producing an odorless eva core which does not cause odor in the air conditioner.
본 발명의 다른 목적 및 이점은 하기의 발명의 상세한 설명, 청구범위 및 도면에 의해 보다 명확하게 된다.
Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention, claims and drawings.
본 발명의 일 양태에 따르면, 본 발명은 공조장치에서 냄새를 유발시키지 않는 무취 바이오필름으로의 코팅에 이용되는 미생물 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 제공한다. According to one aspect of the present invention, there is provided a microbial microbacterium, which is used for coating with an odorless biofilm that does not cause odor in an air conditioner, AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P).
본 발명의 다른 양태에 따르면, 본 발명은 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이 바이오필름으로 코팅된 공조장치 내 냄새를 유발시키지 않는 무취 에바코어를 제공한다.According to a further aspect of the invention there is provided a bacterium methyl Solarium AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) provides odorless EVA cores that do not cause odors in the air conditioner coated with biofilm.
본 발명의 또 다른 양태에 따르면, 본 발명은 According to another aspect of the present invention,
(i) 에바코어 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P) 번식에 유리한 배지를 도포하는 단계;(i) On the surface of the EVA core , methylobacterium Aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) applying the medium favorable to the propagation;
(ii) 상기 배지가 도포된 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 부착하는 단계;및(ii) a methyl on the surface of the medium is applied tumefaciens Affixing the aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P); and
(iii) 상기 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 번식시켜 바이오필름을 형성하는 배양 단계;(iii) the methylobacterium AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) to form a biofilm;
를 포함하는 공조장치 내 냄새를 유발시키지 않는 무취 에바코어 제조 방법을 제공한다.
The present invention provides an odorless EVA core manufacturing method that does not cause odor in the air conditioner including the above-described odor eliminating device.
본 발명의 특징 및 이점은 하기와 같다.The features and advantages of the present invention are as follows.
(i) 본 발명은 공조장치에서 냄새를 유발시키지 않는 무취 바이오필름으로의 코팅에 이용되는 미생물 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P) 및 이를 이용하여 바이오필름으로 코팅시킨 공조장치 내 냄새를 유발시키지 않는 무취 에바코어에 관한 것이다.(i) The present invention relates to a microbial methyl bromide microorganism used for coating with an odorless biofilm which does not cause odor in an air conditioning apparatus Aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) and that do not use them to induce within the odor was coated with a biofilm air conditioner relates to an odorless EVA core.
(ii) 본 발명의 무취 미생물 및 무취 에바코어를 통해 공조 장치 내에 악취 미생물의 번식을 억제하여 실내에서 악취를 제거할 수 있다.
(ii) The odorless microorganisms and the odorless eva cores of the present invention can inhibit the propagation of odorous microorganisms in the air conditioner to remove odors in the room.
도 1은 알루미늄 핀을 멸균시키고 먼지를 포함하는 영양 배지에 Dipping하고 이후 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 접종 시키기 위한 패트리디쉬 사진이다.Figure 1 Dipping in a nutrient medium to the sterile aluminum pin to include dust and bacterium with later methyl Solarium AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P).
본 발명의 일 양태에 따르면, 본 발명은 공조장치에서 냄새를 유발시키지 않는 무취 바이오필름으로의 코팅에 이용되는 미생물 메틸로박테리움 아쿠아티쿰 (Methylobacterium aquaticum)을 제공한다. 보다 바람직하게는 무취 바이오필름으로서의 코팅에 이용되는 미생물은 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이다. 본 메틸로박테리움 아쿠아티쿰을 2012년 11월 14일 한국미생물 보존센터에 기탁하였다. 상기 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P) 외에도 메틸로박테리움 브라키아툼 HKMC-2(Methylobacterium brachiatum HKMC-2)(KCCM11326P), 메틸로박테리움 플래타니 HKMC-3 (Methylobacterium platani HKMC-3)(KCCM11327P), 아시네토박터 존스니 HKMC-4(Acinetobacter johnsonii HKMC-4)(KCCM11328P), 바실러스 베트나멘시스 HKMC-5(Bacillus vietnamensis HKMC-5)(KCCM11329P), 브레비바실러스 인보카투스 HKMC-6(Brevibacillus invocatus HKMC-6)(KCCM11330P), 데이노코쿠스 피쿠스 HKMC-7(Deinococcus ficus HKMC-7)(KCCM11331P), 레이프소니아 솔리 HKMC-8(Leifsonia soli HKMC-8)(KCCM11332P), 슈도모나스 나이트로리듀센스 HKMC-9 (Pseudomonas nitroreducens HKMC-9)(KCCM11333P) 및 스핑고모나스 아쿠아틸리스 HKMC-10 (sphingomonas aquatilis HKMC-10)(KCCM11334P) 및 메틸로박테리움 코마가태 HKMC-11 (Methylobacterium komagatae HKMC-11)(KCCM11335P)를 2012년 11월 14일 한국미생물 보존센터에 기탁하였다.According to one aspect of the present invention, there is provided a microorganism used for coating with an odorless biofilm which does not cause odor in an air conditioning apparatus,Methyl bromide Aquatiquem (Methylobacterium aquaticum). More preferably, the microorganism used for the coating as the odorless biofilm isMethyl bromide Aquatiquem HKMC-1 (Methylobacterium aquaticum HKMC-1) (KCCM11325P). exampleMethyl bromide AquatiquemOn November 14, 2012 at the Korea Microorganisms Conservation Center. remindMethyl bromide Aquatiquem HKMC-1 (Methylobacterium aquaticum In addition to HKMC-1) (KCCM11325P)Methyl bromide Brakiatum HKMC-2 (Methylobacterium brachiatum HKMC-2) (KCCM11326P),Methyl bromide Platani HKMC-3 (Methylobacterium platani HKMC-3) (KCCM11327P),Ashton Bauber Jonesny HKMC-4 (Acinetobacter johnsonii HKMC-4) (KCCM11328P),Bacillus Betanensis HKMC-5 (Bacillus vietnamensis HKMC-5) (KCCM11329P),Brevi Bacillus Invocatus HKMC-6 (Brevibacillus invocatus HKMC-6) (KCCM11330P),Deinokokkusu Peckus HKMC-7 (Deinococcus ficus HKMC-7) (KCCM11331P),Reef Sonia Soli HKMC-8 (Leifsonia left HKMC-8) (KCCM11332P),Pseudomonas Nitroly Dysense HKMC-9 (Pseudomonas nitroreducens HKMC-9) (KCCM11333P) andSphingo Monas Aquatiles HKMC-10 (sphingomonas aquatilis HKMC-10) (KCCM11334P) andMethyl bromide Coma HKMC-11 (Methylobacterium komagatae HKMC-11) (KCCM11335P) on November 14, 2012 at the Korea Microorganism Conservation Center.
본 발명의 바이오필름을 코팅할 수 있는 대상은 냉방장치이며, 냉방 장치는 압축기, 블로워, 에바코어 등을 포함하는데, 특히 본원 발명의 바이오 필름을 코팅시킬 수 있는 대상은 에바코어이다. 냉방 장치는 가정용 냉방 장치, 자동차용 냉방 장치 등 어떠한 냉방 장치의 에바코어에도 모두 적용될 수 있는 것이다. 보다 바람직하게는 자동차용 냉방 장치의 에바코어에 이용될 수 있다.The object to which the biofilm of the present invention can be coated is a cooling device, and the cooling device includes a compressor, a blower, an eva core and the like. Especially, an object to which the biofilm of the present invention can be coated is EVA core. The air conditioner can be applied to any air conditioner of an air conditioner such as a home air conditioner or an automobile air conditioner. More preferably, it can be used in an EVA core of an air conditioner for an automobile.
에바코어의 냉각 작용에 의해 실내의 공기는 온도가 낮아 지게 되며, 공기중의 습도가 응축 되어 수분이 발생하게 되며, 이 때 생긴 수분 즉 응축수는 에바코어 내부의 배출구조를 통해 차량 외부로 빠지게 되므로, 에바코어의 악취 미생물 조절을 통해 차량 내부로 공기 유입시 악취 제거를 조절할 수 있다.The temperature of the indoor air is lowered by the cooling action of the EVA core, the humidity in the air is condensed and water is generated, and the moisture generated at this time, that is, the condensed water, falls out of the vehicle through the exhaust structure inside the EVA core , It is possible to control the odor removal when the air is introduced into the vehicle through the control of the odor microorganisms of the EVA core.
즉, 악취 미생물의 번식을 억제할 수 있도록 미리 무취 미생물을 번식시키는 것이다.That is, breeding odorless microorganisms in advance so as to suppress the growth of odor microorganisms.
본 발명의 다른 양태에 따르면, 본 발명은 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이 바이오필름으로 코팅된 공조장치 내 냄새를 유발시키지 않는 무취 에바코어를 제공한다.According to a further aspect of the invention there is provided a bacterium methyl Solarium AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) provides odorless EVA cores that do not cause odors in the air conditioner coated with biofilm.
또한, 본 발명에서는 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이 바이오필름으로 코팅된 이외에도, 바이오필름으로 코팅하기 위해 상기 미생물 이외에 메틸로박테리움 브라키아툼 HKMC-2(Methylobacterium brachiatum HKMC-2)(KCCM11326P), 메틸로박테리움 플래타니 HKMC-3 (Methylobacterium platani HKMC-3)(KCCM11327P), 아시네토박터 존스니 HKMC-4(Acinetobacter johnsonii HKMC-4)(KCCM11328P), 바실러스 베트나멘시스 HKMC-5(Bacillus vietnamensis HKMC-5)(KCCM11329P), 브레비바실러스 인보카투스 HKMC-6(Brevibacillus invocatus HKMC-6)(KCCM11330P), 데이노코쿠스 피쿠스 HKMC-7(Deinococcus ficus HKMC-7)(KCCM11331P), 레이프소니아 솔리 HKMC-8(Leifsonia soli HKMC-8)(KCCM11332P), 슈도모나스 나이트로리듀센스 HKMC-9 (Pseudomonas nitroreducens HKMC-9)(KCCM11333P) 및 스핑고모나스 아쿠아틸리스 HKMC-10 (sphingomonas aquatilis HKMC-10)(KCCM11334P) 및 메틸로박테리움 코마가태 HKMC-11 (Methylobacterium komagatae HKMC-11)(KCCM11335P)로 구성된 군에서 선택되는 1종 또는 2종 이상의 미생물을 추가적으로 포함하여 코팅시키는 것을 특징으로 하는 공조장치 내 냄새를 유발시키지 않는 무취 에바코어를 제공할 수 있으며, 반드시 상기 미생물에 한정되는 것은 아니며, 다양한 미생물의 조합을 통해 무취의 효과가 나타날 수 있는 모든 미생물이 가능하다. In the present invention, a bacterium methyl Solarium In addition to aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) is coated with a biofilm, the microorganisms in addition to the methyl to coat the biofilm tumefaciens Beuraki Atum HKMC-2 (Methylobacterium brachiatum HKMC- 2) (KCCM11326P), a bacterium methyl Solarium Flash Tani HKMC-3 (Methylobacterium platani HKMC-3) (KCCM11327P) , Acinetobacter Jones you HKMC-4 (Acinetobacter johnsonii HKMC- 4) (KCCM11328P), Bacillus Betanensis HKMC-5 ( Bacillus vietnamensis HKMC-5) (KCCM11329P), Brevibacillus Inboard car tooth HKMC-6 (Brevibacillus invocatus HKMC- 6) (KCCM11330P), Day Noko kusu blood kusu HKMC-7 (Deinococcus ficus HKMC-7) (KCCM11331P), Reef Sonia Soli HKMC-8 ( Leifsonia soli HKMC-8) (KCCM11332P), Pseudomonas nitro Lowry dew sense HKMC-9 (Pseudomonas nitroreducens HKMC- 9) (KCCM11333P) and Sphingomonas Aqua Antilles HKMC-10 (sphingomonas aquatilis HKMC-10) (KCCM11334P) and methyl tumefaciens The horseshoe HKMC-11 ( Methylobacterium The present invention can provide an odorless EVA core which does not cause odor in the air conditioner, characterized by additionally coating one or more microorganisms selected from the group consisting of komagatae HKMC-11 (KCCM11335P) The present invention is not limited to microorganisms, and all microorganisms capable of producing an odorless effect through a combination of various microorganisms are possible.
에바코어의 재질은 알루미늄 또는 알루미늄 합금인 것을 특징으로 하며, 에바코어에 항균처리를 한 알루미늄 또는 알루미늄 항균처리를 하지 않은 합급 재질을 이용하여 에바코어를 제조한다. 하지만 에바코어의 재질은 알루미늄 또는 알루미늄 합금에 한정되지 않으며, 일반적으로 에바코어는 알루미늄 이외에도 구리(동) 등 열전도율이 좋고 내부식성 뛰어난 금속은 모두 재질로 이용 가능하며 합금 제조로도 이용 가능하며, 전기차 등에는 펠티어(PELTIER) 소자에 열 교환기를 연결하여 사용할 수 있으며, 이처럼 열교환을 용이하게 하는 동일 유사한 구조라면 모두 재질로 이용할 수 있다.The material of the EVA core is aluminum or an aluminum alloy. EVA cores are manufactured using an EVA core that has been subjected to an antibacterial treatment or a non-antibacterial material. However, Eva core is not limited to aluminum or aluminum alloy. In general, Eva core can be used as a material for alloys such as copper (copper), which has good thermal conductivity and excellent corrosion resistance, A heat exchanger may be connected to the PELTIER device, and any material having a similar structure that facilitates heat exchange may be used as the material.
본 발명의 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1) 바이오필름은 냄새를 유발시키는 미생물의 번식을 억제시키는 것으로 냄새를 유발시키지 않도록 한다. The methyl < RTI ID = 0.0 > AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) Biofilm inhibits the growth of microorganisms that cause odor and does not cause odor.
에바코어의 표면에 바이오필름이 코팅되는 경우, 악취의 원인이 되는 세균 및 곰팡이의 증착, 번식이 방지된다. 즉, 에바코어 표면에 미리 특정 미생물 등을 이용하여 바이오필름을 코팅하는 경우, 이러한 특정 미생물 등과 다른 환경에서 서식하는 타 종류의 세균 및 곰팡이는 에바코어 표면에서 증착, 번식할 수 없다.When the biofilm is coated on the surface of the EVA core, deposition and propagation of bacteria and fungi, which cause bad odors, are prevented. That is, when the biofilm is coated on the surface of the EVA core by using a specific microorganism or the like, other kinds of bacteria and fungi living in environments other than the specific microorganisms and the like can not be deposited and propagated on the EVA core surface.
무취 바이오필름은 한 종류의 미생물으로만 구성되는 것에 한정되지 않으며, 상기 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)이 바이오필름으로 코팅된 에바코어는 상기 미생물 이외에 메틸로박테리움 브라키아툼 HKMC-2(Methylobacterium brachiatum HKMC-2)(KCCM11326P), 메틸로박테리움 플래타니 HKMC-3 (Methylobacterium platani HKMC-3)(KCCM11327P), 아시네토박터 존스니 HKMC-4(Acinetobacter johnsonii HKMC-4)(KCCM11328P), 바실러스 베트나멘시스 HKMC-5(Bacillus vietnamensis HKMC-5)(KCCM11329P), 브레비바실러스 인보카투스 HKMC-6(Brevibacillus invocatus HKMC-6)(KCCM11330P), 데이노코쿠스 피쿠스 HKMC-7(Deinococcus ficus HKMC-7)(KCCM11331P), 레이프소니아 솔리 HKMC-8(Leifsonia soli HKMC-8)(KCCM11332P), 슈도모나스 나이트로리듀센스 HKMC-9 (Pseudomonas nitroreducens HKMC-9)(KCCM11333P) 및 스핑고모나스 아쿠아틸리스 HKMC-10 (sphingomonas aquatilis HKMC-10)(KCCM11334P) 및 메틸로박테리움 코마가태 HKMC-11 (Methylobacterium komagatae HKMC-11)(KCCM11335P)로 구성된 군에서 선택되는 1종 또는 2종 이상의 미생물을 추가적으로 포함하여 코팅시킨 바이오필름은 냄새를 유발시키는 미생물의 번식을 억제시키는 것으로 냄새를 유발시키지 않도록 한다.Odorless biofilm is not limited to those consisting of only one kind of the microorganism to the methyl tumefaciens AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) This biofilm-coated EVA core was prepared by adding microbacterium Brckyatum HKMC-2 ( Methylobacterium brachiatum HKMC-2) (KCCM11326P) , a bacterium methyl Solarium Flash Tani HKMC-3 (Methylobacterium platani HKMC-3) (KCCM11327P) , Acinetobacter Jones you HKMC-4 (Acinetobacter johnsonii HKMC-4) (KCCM11328P), Bacillus Betanensis HKMC-5 ( Bacillus vietnamensis HKMC-5) (KCCM11329P), Brevibacillus Invoke Car Bluetooth HKMC-6 (Brevibacillus invocatus HKMC-6) (KCCM11330P) , Day Noko kusu blood kusu HKMC-7 (Deinococcus ficus HKMC-7) (KCCM11331P), Reef Sonia Solid HKMC-8 (Leifsonia left HKMC-8) (KCCM11332P), Pseudomonas nitro Lowry dew sense HKMC-9 (Pseudomonas nitroreducens HKMC- 9) (KCCM11333P) and Sphingomonas Aqua subtilis HKMC-10 (sphingomonas aquatilis HKMC- 10) (KCCM11334P) and methyl tumefaciens The horseshoe HKMC-11 ( Methylobacterium (KCCM11335P). The biofilm, which is coated with one or more microorganisms selected from the group consisting of K.K.M.C., K.Magatae HKMC-11) (KCCM11335P), inhibits the growth of microorganisms causing odors, and does not cause odors.
본 발명의 또 다른 양태에 따르면, 본 발명은 According to another aspect of the present invention,
(i) 에바코어 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1) 번식에 유리한 배지를 도포하는 단계;(i) On the surface of the EVA core , methylobacterium Aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) applying the medium favorable to the propagation;
(ii) 상기 배지가 도포된 표면에 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 부착하는 단계;및(ii) a methyl on the surface of the medium is applied tumefaciens Affixing the aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P); and
(iii) 상기 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P)을 번식시켜 바이오필름을 형성하는 배양 단계;(iii) the methylobacterium AQUATICUM HKMC-1 ( Methylobacterium aquaticum HKMC-1) (KCCM11325P) to form a biofilm;
를 포함하는 공조장치 내 냄새를 유발시키지 않는 무취 에바코어 제조 방법을 제공한다.The present invention provides an odorless EVA core manufacturing method that does not cause odor in the air conditioner including the above-described odor eliminating device.
상기 단계 (i)에서 번식에 유리한 배지를 도포하는 단계는 미생물의 증착을 용이하게 하기 위한 수단으로 자연적으로 미생물이 증착될 수 있도록 한다면 생략이 가능한 단계이다. In the step (i), the step of applying the culture medium favorable for breeding is a step that can be omitted if the microorganism can be naturally deposited as a means for facilitating the deposition of microorganisms.
상기 단계 (ii)에서 메틸로박테리움 아쿠아티쿰 HKMC-1 (Methylobacterium aquaticum HKMC-1)(KCCM11325P) 이외에 메틸로박테리움 브라키아툼 HKMC-2(Methylobacterium brachiatum HKMC-2)(KCCM11326P), 메틸로박테리움 플래타니 HKMC-3 (Methylobacterium platani HKMC-3)(KCCM11327P), 아시네토박터 존스니 HKMC-4(Acinetobacter johnsonii HKMC-4)(KCCM11328P), 바실러스 베트나멘시스 HKMC-5(Bacillus vietnamensis HKMC-5)(KCCM11329P), 브레비바실러스 인보카투스 HKMC-6(Brevibacillus invocatus HKMC-6)(KCCM11330P), 데이노코쿠스 피쿠스 HKMC-7(Deinococcus ficus HKMC-7)(KCCM11331P), 레이프소니아 솔리 HKMC-8(Leifsonia soli HKMC-8)(KCCM11332P), 슈도모나스 나이트로리듀센스 HKMC-9 (Pseudomonas nitroreducens HKMC-9)(KCCM11333P) 및 스핑고모나스 아쿠아틸리스 HKMC-10 (sphingomonas aquatilis HKMC-10)(KCCM11334P) 및 메틸로박테리움 코마가태 HKMC-11 (Methylobacterium komagatae HKMC-11)(KCCM11335P)로 구성된 군에서 선택되는 1종 또는 2종 이상의 미생물을 추가적으로 바이오필름으로 코팅시켜 다양한 무취 미생물 군의 조합을 통해서도 무취 바이오 필름을 제조할 수 있으며 이를 통해 악취 미생물의 번식을 억제시킨다.In step (ii) above , methylobacterium In addition to aqua tikum HKMC-1 (Methylobacterium aquaticum HKMC- 1) (KCCM11325P) bacterium with methyl Solarium Beuraki Atum HKMC-2 (Methylobacterium brachiatum HKMC- 2) (KCCM11326P), a bacterium methyl Solarium Flash Tani HKMC-3 (Methylobacterium platani HKMC-3) (KCCM11327P) , Acinetobacter Jones you HKMC-4 (Acinetobacter johnsonii HKMC- 4) (KCCM11328P), Bacillus Betanensis HKMC-5 ( Bacillus vietnamensis HKMC-5) (KCCM11329P), Brevibacillus Inboard car tooth HKMC-6 (Brevibacillus invocatus HKMC- 6) (KCCM11330P), Day Noko kusu blood kusu HKMC-7 (Deinococcus ficus HKMC-7) (KCCM11331P), Reef Sonia Solid HKMC-8 (Leifsonia soli HKMC- 8) (KCCM11332P), Pseudomonas nitro Lowry dew sense HKMC-9 (Pseudomonas nitroreducens HKMC- 9) (KCCM11333P) and Sphingomonas Aqua subtilis HKMC-10 (sphingomonas aquatilis HKMC- 10) (KCCM11334P) and methyl tumefaciens The horseshoe HKMC-11 ( Methylobacterium by coating with one or two or more microorganisms selected from the group consisting of komagatae HKMC-11) (KCCM11335P) Additionally biofilm can be prepared odorless biofilm through a combination of various odor microorganisms and growth of malodor microorganisms through which .
본 발명의 바람직한 구현예에 따르면, 상기 에바코어 표면은 그 재질이 알루미늄 또는 알루미늄 합금을 이용할 수 있으며, 상기 알루미늄 또는 알루미늄 합금은 항균처리를 한 에바코어를 제조한 후에 무취 미생물을 접종하여 바이오필름을 제조할 수 있다. 또한 알루미늄 또는 알루미늄 합금은 항균처리를 하지 않고 미생물 접종을 통하여 바이오 필름을 제조할 수 있다.
According to a preferred embodiment of the present invention, the surface of the EVA core may be made of aluminum or an aluminum alloy, and the aluminum or aluminum alloy may be coated with an antibacterial EVA core, Can be manufactured. Also Aluminum or an aluminum alloy can be produced by microbial inoculation without antimicrobial treatment.
이하, 첨부된 도면들을 참조하면서 본 발명의 바람직한 실시예에 따른 에바코어에서 무취 미생물의 동정 및 이를 이용한 공조장치용 무취 바이오필름에 대해 상세히 설명하기로 한다.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, in which an identification of an odorless microorganism in an eva core according to a preferred embodiment of the present invention and an odorless biofilm for an air conditioner using the same.
1. One. 실시예Example 1 : 악취 냄새 중고차 확보 1: Odor smell Secured used car
본 발명자는 악취 냄새가 나는 중고차 5종을 확보하여 각각 차종 A 내지 차종 E에 장착되어 있는 에바코어를 떼어내어 에바코어 시편을 샘플링하고자 하였다.
The present inventors secured five types of used cars that smelled bad odors and tried to sample the EVA core specimens by removing the EVA cores mounted on the vehicle types A to E, respectively.
2. 2. 실시예Example 2 : 2 : 에바코어Eva Core 시편 샘플링 Sample Sampling
상기 악취 중고차 A 내지 E로부터 확보한 에바코어로부터 에바코어 sample을 사용하기 전까지 4℃에서 냉장 보관되었으며, polyethylene bag으로 밀봉하여 보관하였다. 미생물을 분리 배양하기 위해 각각의 에바코어에서 전면부 및 후면부를 포함한 임의의 부위에서 fin 시료를 멸균된 롱 노즈 플라이어를 사용하여 각 5g씩 채취한 후 혼합하여 사용하였다.
The EVA core obtained from the used odors A to E was refrigerated at 4 ° C until the EVA core sample was used, and then sealed with a polyethylene bag. In order to isolate and cultivate the microorganisms, 5 g each of the fin samples was collected from each of the EVA cores using sterilized long nose pliers at arbitrary sites including the front part and the rear part.
3. 3. 실시예Example 3 : 3: 에바코어로부터From Eva Core 미생물의 Microbial 탈리Tally 과정 process
하기 과정을 통해 에바코어로부터 미생물의 탈리 절차 및 방법에 대하여 서술하였다. The procedure and the method of desorbing microorganisms from the EVA core are described below.
① 에바코어에서 추출한 시료를 섞어 mixer에 넣는다. ① Mix the samples extracted from Eva core into a mixer.
② 멸균된 1× Phosphate buffed saline(PBS)를 200ml mixer에 넣는다. ② Add sterilized 1 × Phosphate buffed saline (PBS) to a 200 ml mixer.
③ 혼합된 시료와 PBS를 30초간 mixing 한다. ③ Mix the mixed sample with PBS for 30 seconds.
④ mixer를 ice에 1분간 둔다. ④ Place mixer in ice for 1 minute.
⑤ ③-④ step을 2회 추가 반복한다. ⑤ Repeat steps ③-④ twice.
⑥ 현탁액을 13000rpm 4℃에서 3분간 centrifuge한다. ⑥ The suspension is centrifuged at 13000 rpm at 4 ° C for 3 minutes.
⑦ 상등액만을 취해서 새 tube에 옮겨 담는다. ⑦ Take only the supernatant and transfer it to a new tube.
⑧ 멸균된 면봉을 상등액에 적셔 샘플을 채취한 에바코어의 표면을 수회 닦아낸다. ⑧ Wet the sterilized cotton swab with the supernatant and wipe the surface of the Eva core sample several times.
⑨ 닦아낸 면봉은 상등액에 head만을 넣고 votexing 한다. ⑨ Put only the head in the supernatant liquid and polish the wiped swab.
⑩ ⑥번 step에서 획득한 침전물과 ⑨번 혼합물을 섞어 접종원액으로 사용한다. ⑩ Mix precipitant obtained in step ⑥ with mixture ⑨ and use it as stock solution.
상기 ① 내지 ⑩의 과정을 차종 A 내지 차종 E에 장착되어 있는 에바코어에 대하여 각각 물리적 탈리를 시행하여 미생물을 분리하였다.
The above processes (1) to (10) were physically removed from the EVA cores mounted on the vehicle A to the vehicle E to isolate the microorganisms.
4. 4. 실시예Example 4 : 박테리아의 분리 배양 4: Isolation culture of bacteria
에어컨의 세균의 분리는 일반적으로 일반세균이라 하는 호기성 종속영양 세균을 종속영양 평판 배양을 통하여 분리한다. 일반세균의 분리에 사용하는 복합영양배지는 PTYG agar medium, R2A agar medium 2가지를 사용한다. PTYG agar medium은 Peptone 0.25g (Difco), Triptone 0.25g (Difco), Yeast extract 0.5g (Difco), Glucose 0.5g (Difco), MgSO4 30mg (Sigma), CaCl2 3mg (Sigma), Bacto agar 15g (Difco)을 증류수 980ml에 넣고 pH 7.0으로 맞춘 후 121℃에서 15분간 고압멸균 하였다. R2A arar medium은 Yeast extract 0.5g (Difco), Proteose peptone No.3 0.5g (Difco), Casamino acids 0.5g (Difco), Dextrose 0.5g (Difco), Soluble starch 0.5g (Difco), Sodium pyruvate 0.3g (Difco), Dipotassium sulfate 0.3g (Difco), Magnesium sulfate 0.05g (Difco), Bacto agar 15g (Difco)을 증류수 980ml에 넣고 pH 7.2를 맞춘 뒤 121℃에서 15분간 고압멸균 하였다. 비우점 일반세균의 분리를 위하여 3가지 종류의 항생제를 사용하며 (표 2), 각 항생제는 100ppm의 농도로 필터멸균 후 배지온도가 50℃ 정도 되었을 때 접종하여 항생제 medium을 제작하였다. The separation of airborne germs is generally accomplished by heterotrophic culture of aerobic heterotrophic bacteria, commonly referred to as general germs. The PTYG agar medium and the R2A agar medium are used as the combined nutrient medium for the isolation of general bacteria. PTYG agar medium was prepared by mixing 0.25 g (Difco), 0.25 g (Difco), 0.2 g (Difco), 0.2 g of yeast extract, 0.1 g of Difco, 0.5 g of Difucor, 30 mg of MgSO 4 , 3 mg of CaCl 2 (Difco) was added to 980 ml of distilled water, adjusted to pH 7.0, and autoclaved at 121 ° C for 15 minutes. R2A arar medium contains 0.5 g of Yeast extract (Difco), 0.5 g of Proteose peptone (Difco), 0.5 g of Casamino acids (Difco), 0.5 g of Dextrose (Difco), 0.5 g of Soluble starch (Difco), 0.3 g of sodium pyruvate (Difco), Dipotassium sulfate 0.3 g (Difco), Magnesium sulfate 0.05 g (Difco) and Bacto agar 15 g (Difco) were added to 980 ml of distilled water and adjusted to pH 7.2 and autoclaved at 121 ° C for 15 minutes. Three antibiotics were used for the isolation of common bacteria (Table 2). Antibiotic medium was prepared by inoculating each antibiotic at a concentration of 100 ppm after filter sterilization at a temperature of about 50 ° C.
5. 5. 실시예Example 5 : 진균(곰팡이)의 분리 배양 5: Isolation culture of fungus (mold)
에어컨 진균(곰팡이)의 분리배양은 영양배지에서 호기성평판배양을 통하여 분리한다. 진균(곰팡이)의 분리배양에 사용하는 배지는 Potato dextrose agar medium, Malt extract agar medium 2가지를 사용하였다. Potato dextrose agar medium은 Potato starch 4g (Difco), Dextrose 20g (Difco), Bacto agar 15g (Difco)를 증류수 980ml에 넣고 pH 5.1을 맞춘 뒤 121℃에서 15분간 고압멸균하였다. Malt extract agar medium은 Malt extract 20g (Difco), Bacto agar 15g (Difco)를 증류수 980ml에 넣고 pH 5.0을 맞춘 뒤 121℃에서 15분간 고압멸균하였다. Isolation cultures of air-conditioned fungi (fungi) are separated from aerobic plate culture in nutrient medium. Potato dextrose agar medium and Malt extract agar medium were used for the separation culture of fungi (fungi). Potato dextrose agar medium was prepared by placing Potato starch 4 g (Difco), Dextrose 20 g (Difco) and Bacto agar 15 g (Difco) in 980 ml of distilled water, adjusting the pH to 5.1, and autoclaving at 121 ° C for 15 minutes. Malt extract agar medium was prepared by adding Malt extract 20 g (Difco) and Bacto agar 15 g (Difco) to 980 ml of distilled water and adjusting the pH to 5.0, followed by high pressure sterilization at 121 ° C for 15 minutes.
진균의 분리 배양을 위하여 90mm×15mm의 petri dish를 사용하였고, 배양된 진균을 각각 분리 배양하기 위해서는 60mm×15mm의 petri dish가 사용되었다.
A 90 mm × 15 mm petri dish was used for the separation of fungi. A petri dish of 60 mm × 15 mm was used for separate culture of cultured fungi.
6. 6. 실시예Example 6 : 6: 에바코어Eva Core 미생물이 배양된 전체 배지에서 On the whole medium in which the microorganism has been cultured 우점Dominance 균주의 분리 배양 Isolation culture of strain
우점 균주를 분리배양하기 위해서는 우선 희석비율과 콜로니 색, 크기, 모양 등 morphology적인 접근을 통하여 여러 가지 우점 균주를 선별하여야 하므로, 하기 절차에 따라 우점 균주를 분리 배양한다.In order to isolate and cultivate the dominant strains, first, various dominant strains should be selected through a morphological approach such as dilution ratio, colony color, size, and shape. Therefore, the dominant strains are separately cultured according to the following procedure.
① 분리배양 된 배지에서 곰팡이와 박테리아를 구분하여 분리한다. Separation Separate fungi and bacteria from the culture medium.
② morphology가 다른 여러 가지 세균을 loop를 사용하여 복합배지에 접종 순수 분리한다. ② Inoculate various bacterial strains of different morphology into a complex medium using a loop and isolate them pure.
③ 접종된 배지 중 가장 생육이 좋은 배지를 선택하여 계대 배양한다. ③ Select the best growth medium among the inoculated medium and subculture.
④ 곰팡이는 균사의 끝부분을 scalpel을 사용하여 분리한 뒤 복합배지에 접종한다. ④ The mold is separated from the end of the hypha using scalpel and then inoculated into the complex medium.
⑤ 곰팡이 균주도 접종된 배지 중 가장 생육이 좋은 배지를 선택하여 계대 배양한다.
⑤ Select the medium that has the best growth among the medium inoculated with the fungal strain and subculture.
7. 7. 실시예Example 7 : 7: 에바코어Eva Core 우점Dominance 박테리아의 유전적 특성의 분석 Analysis of genetic characteristics of bacteria
REP-PCR 패턴 분석을 통한 핑거프린트(Fingerprints)조사Fingerprints investigation through REP-PCR pattern analysis
REP-PCR은 세균 염색체의 구조를 분석하는 분자생물학적 방법으로서 각 세균 균주를 다른 세균과 구별하여 식별할 수 있는 fingerprinting 방법이다. REP-PCR을 수행하기 위해 하기의 각 절차에 따라 유전적 특성을 분석하였다.REP-PCR is a molecular biologic method for analyzing the structure of bacterial chromosomes. It is a fingerprinting method that distinguishes each bacterial strain from other bacteria. To perform REP-PCR, genetic characteristics were analyzed according to the following procedures.
(1) (One) CellCell lysislysis 절차 step
① Lyse-N-Go PCR Reagent (Thermo) 2.5㎕를 PCR tube에 담는다. 1) Transfer 2.5μl of Lyse-N-Go PCR Reagent (Thermo) into PCR tube.
② 클린벤치에서 콜로니를 피펫으로 따서 위 tube에 넣고 pipetting한다. 이 때 따는 양은 용액이 약간 뿌옇게 될 정도로 되지 않도록 주의한다. ② Pipet the colonies on a clean bench and pipet into the upper tubes. Be careful not to get enough amount of solution to pour.
③ Manufacturer의 지시에 따라 PCR machine에서 배양한다. ③ Cultivate in PCR machine according to manufacturer's instructions.
④ 하기의 표 3에 기재되어 있는 Lysis 프로그램에 의한 사이클을 반복하고, 9 사이클에서 80℃가 되었을 때 끄지 말고 그대로 둔다.(4) Repeat the cycle of the Lysis program described in Table 3 below, and leave it at 80 DEG C in 9 cycles without turning off.
(2) (2) PCRPCR reactionreaction
하기 표 4에 기재되어 있는 PCR 반응에 필요한 성분들을 필요한 양에 맞게 혼합하여 반응 혼합물을 제조하였고 이를 이용하여 표 5에 기재된 바와 같이 예비 변성 단계(pre-denaturation) 94℃에서 7 분, 변성 단계(denaturation) 92℃에서 1분, 냉각 단계(annealing)에서 51.5℃에서 1분, 연장(extension) 단계에서 65℃에서 8분간 변성, 냉각, 연장 과정을 33회 반복하여 PCR 증폭 과정을 수행하였다.The components required for the PCR reaction described in Table 4 below were mixed in the required amount to prepare a reaction mixture. The reaction mixture was subjected to pre-denaturation at 94 ° C for 7 minutes, denaturation step denaturation) denaturation at 92 ° C for 1 min, annealing at 51.5 ° C for 1 min, extension at 65 ° C for 8 min, denaturation, cooling and extension were performed 33 times to perform PCR amplification.
(3) (3) GelCome electrophoresis전공기
각각의 PCR에 의해 증폭된 DNA 단편을 취하여EtBr을 첨가한 1.2-1.5 % agarose gel을 사용하며, 6x dye를 sample과 1:5비율로 섞어 가능한 많은 양을 loading하였다. 대부분의 PCR product들은 100~1000 bp 사이에 있으므로 100bp ladder를 함께 loading하여, 가능한 한 천천히 (50 V) bromophenol blue와 xylene cyanol dye의 중간이 전체 gel의 중간까지 가도록 전기 영동한다. gel상의 DNA pattern이 같은 균주는 동일한 균주로 간주한다.
DNA fragments amplified by each PCR were taken and 1.2 - 1.5% agarose gel with EtBr was used. 6x dye was mixed with sample in 1: 5 ratio and as much as possible. Since most PCR products are between 100 and 1000 bp, a 100 bp ladder is loaded together and electrophoresed as slowly as possible (50 V) until the middle of the bromophenol blue and xylene cyanol dye reaches the middle of the entire gel. The same DNA pattern on the gel is regarded as the same strain.
(4) 에어컨 (4) Air conditioners 우점Dominance 박테리아의 16S 16S of bacteria rRNArRNA 유전자 분석을 통한 동정 Identification through gene analysis
16S rRNA(ribosomal Ribonucleic acid) 유전자는 박테리아의 유전학적 분류 동정을 위해 사용되며, REP-PCR을 통하여 분류된 박테리아의 genus 및 species 수준에서의 동정이 가능하다. 16S rRNA는 다양한 단백질들과 상호작용하여 리보솜(Ribosome)을 구성하는 RNA로서, 그 완전한 서열이나 올리고뉴클레오티드(Oligonucleotide) 목록에 대한 염기서열이 2000 종 이상의 세균에서 밝혀졌기 때문에 16S rRNA의 유전자 유사성에 근거하여 세균을 몇 가지 주요군으로 나눌 수 있다. 상기 16S rRNA 유전자 염기서열의 변화율이 대부분의 게놈에 있는 다른 유전자 염기서열보다 월등히 적기 때문에 16S rRNA 염기서열 유사도의 정도가 생물간의 계통학적 거리를 반영하는 것으로 인식되고 있다. 상기 16S rRNA 유전자 절편의 염기서열을 분석하여 그 유사도에 따라 미생물을 동정하는 방법은 상술한 지방산 분석 및 탄수화물 자화능 분석법과 함께 미생물, 특히 산업적으로 유용한 미생물을 동정하는데 대표적인 동정방법으로 이용되어 왔다.The 16S rRNA (ribosomal ribonucleic acid) gene is used for the identification of bacterial genomic classification, and it is possible to identify bacteria classified at genus and species level by REP-PCR. 16S rRNA is an RNA that constitutes a ribosome by interacting with various proteins. Based on the genetic similarity of 16S rRNA, since the complete sequence or nucleotide sequence of the oligonucleotide list is revealed in more than 2000 bacteria, So that bacteria can be divided into several major groups. It is recognized that the degree of 16S rRNA sequence similarity reflects the phylogenetic distance between organisms because the rate of change of the 16S rRNA gene sequence is much smaller than that of other genomic sequences in most genomes. The method of identifying the microorganisms according to their similarity by analyzing the base sequence of the 16S rRNA gene fragment has been used as a typical identification method for identification of microorganisms, particularly industrially useful microorganisms, together with the above-described fatty acid analysis and carbohydrate magnetization assay.
<16S rRNA PCR><16S rRNA PCR>
PCR condtions (Total 50㎕) : DNA와 Taq를 제외한 나머지 용액을 하기 표 6에 기재되어 있는 것과 같이 필요량만큼 혼합하여 위 lysis 용액에 44.5㎕를 가하였다. 이 후 표 7에 기재되어 있는 바와 같이 예비 변성 단계(pre-denaturation) 94℃에서 5분, 변성 단계(denaturation) 94℃에서 1분, 냉각 단계(annealing) 55℃에서 1분, 연장 단계(extension) 72℃에서 1분 30초를 수행하고, 변성, 냉각 및 연장 단계를 29회 수행하여 PCR 증폭 과정을 수행하였다.PCR condtions (Total 50 쨉 l): The remaining solutions except for DNA and Taq were mixed in the required amount as shown in Table 6 below, and 44.5 쨉 l was added to the above lysis solution. Denaturation at 94 ° C for 5 minutes, denaturation at 94 ° C for 1 minute, annealing at 55 ° C for 1 minute, extension (extension) as described in Table 7, ) At 72 DEG C for 1 minute and 30 seconds, and denaturation, cooling and extension steps were performed 29 times to perform PCR amplification.
(5) (5) PCRPCR purification정화
16S-rRNA PCR을 통해 증폭한 산물을 Qiaquick PCR purifcation kit를 이용하여 하기의 절차에 따라 Purification하였다. The products amplified by 16S-rRNA PCR were purified using the Qiaquick PCR purification kit according to the following procedure.
① PCR product의 5배의 PB buffer를 넣는다. ① Put 5 times PB buffer of PCR product.
② 혼합된 액을 QIAquick column에 분주한다. ② Divide the mixed solution in the QIAquick column.
③ DNA를 binding하기 위하여 1분간 centrifuge 한 후 통과된 혼합액을 제거한다. ③ Centrifuge for 1 minute to bind DNA and remove the mixed solution.
④ wash를 위하여 750㎕의 PE buffer를 QIAquick column에 넣고 1분간 centrifuge한 뒤 통과된 혼합액을 제거한다. ④ Add 750 μl of PE buffer to the QIAquick column for wash, centrifuge for 1 minute, and remove the mixed solution.
⑤ 1분간 다시 centrifuge한다. ⑤ Centrifuge again for 1 minute.
⑥ QIAquick column 새 tube에 옮긴다. ⑥ Move the QIAquick column to a new tube.
⑦ DNA를 추출하기 위하여 30㎕의 EB buffer를 넣고 1분간 둔다. ⑦ Put 30 μl of EB buffer for 1 min to extract DNA.
⑧ 1분간 centrifuge하여 EB에 녹은 DNA를 tube에 모이게 한다.
⑧ Centrifuge for 1 minute to collect the DNA dissolved in EB in the tube.
(6) 분리한 각 미생물의 명칭 및 미생물의 특성 (6) Name of each microorganism separated and characteristics of microorganism
<미생물 1><Microorganism 1>
1. 미생물의 명칭 : HKMC-11. Name of microorganism: HKMC-1
속 명 : Methylobacterium Genus: Methylobacterium
종 명 : aquaticum Species: aquaticum
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 1
SEQ ID NO: 1
<미생물 2><Microorganism 2>
1. 미생물의 명칭 : HKMC-21. Name of microorganism: HKMC-2
속 명 : Methylobacterium Genus: Methylobacterium
종 명 : brachiatum Species: brachiatum
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃
Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 2
SEQ ID NO: 2
<미생물 3><Microorganism 3>
1. 미생물의 명칭 : HKMC-31. Name of microorganism: HKMC-3
속 명 :Methylobacterium Genus: Methylobacterium
종 명 :platani Species: platani
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 3
SEQ ID NO: 3
<미생물 4><Microorganism 4>
1. 미생물의 명칭 : HKMC-41. Name of microorganism: HKMC-4
속 명 :Acinetobacter Genus: Acinetobacter
종 명 :johnsonii Species: johnsonii
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 4
SEQ ID NO: 4
<미생물 5><Microorganism 5>
1. 미생물의 명칭 : HKMC-51. Name of microorganism: HKMC-5
속 명 :Bacillus Name: Bacillus
종 명 :vietnamensis Species: vietnamensis
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 5
SEQ ID NO: 5
<미생물 6><Microorganism 6>
1. 미생물의 명칭 : HKMC-61. Name of microorganism: HKMC-6
속 명 :Brevibacillus Brevibacillus
종 명 :invocatus Species: invocatus
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 6
SEQ ID NO: 6
<미생물 7><Microorganism 7>
1. 미생물의 명칭 : HKMC-71. Name of microorganism: HKMC-7
속 명 :Deinococcus Genus: Deinococcus
종 명 :ficus Species: ficus
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 7
SEQ ID NO: 7
<미생물 8><Microorganism 8>
1. 미생물의 명칭 : HKMC-81. Name of microorganism: HKMC-8
속 명 :Leifsonia Genus: Leifsonia
종 명 :soli Species: soli
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 8
SEQ ID NO: 8
<미생물 9><Microorganism 9>
1. 미생물의 명칭 : HKMC-91. Name of microorganism: HKMC-9
속 명 : Pseudomonas Genus: Pseudomonas
종 명 : nitroreducens Species: nitroreducens
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 9
SEQ ID NO: 9
<미생물 10><Microorganism 10>
1. 미생물의 명칭 : HKMC-101. Name of microorganism: HKMC-10
속 명 :Sphingomonas Genus: Sphingomonas
종 명 :aquatilis Species: aquatilis
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 10
SEQ ID NO: 10
<미생물 11><Microorganism 11>
1. 미생물의 명칭 : HKMC-111. Name of microorganism: HKMC-11
속 명 :Methylobacterium Genus: Methylobacterium
종 명 :komagatae Species: komagatae
2. 복원조건2. Restoration conditions
가. 복원제 end. Restorer
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
나. 온도(℃) 28℃에서 7일간 배양 I. Temperature (° C) Culture at 28 ° C for 7 days
3. 배지3. Badge
(1) 조성 : PTYG medium (1 L 당 Peptone 0.25 g, Triptone 0.25 g, Yeast extract 0.5 g, Glucose 0.5 g, MgSO4 30 mg, CaCl2 3 mg) 또는 R2A medium.(1) Composition: PTYG medium (0.25 g Peptone per liter, 0.25 g Tryptone, 0.5 g Yeast extract, 0.5 g Glucose, 30 mg MgSO 4 , 3 mg CaCl 2 ) or R2A medium.
(2) pH : 7.0 (2) pH: 7.0
(3) 살균조건 : 121℃에서 20분 (3) Sterilization conditions: 121 占 폚 for 20 minutes
4. 배양조건4. Culture conditions
가. 호기성, 혐기성 : 호기성 end. Aerobic, anaerobic: aerobic
나. 온도(℃) 28℃ I. Temperature (℃) 28 ℃
다. 진탕, 정치(액체,고체) 구분없이 사용가능 All. Shaking, politic (liquid, solid) can be used without distinction
5. 보존조건5. Conservation conditions
온도(℃) -70℃ Temperature (° C) -70 ° C
6. 16S rRNA 유전자 시퀀스 6. 16S rRNA gene sequence
서열번호 11
SEQ ID NO: 11
8. 8. 실시예Example 8 : 분리한 미생물의 관능 평가 8: Sensory evaluation of isolated microorganisms
(1) (One) 영양배지에서의In nutrient media 관능 평가 Sensory evaluation
상기 실시예 7로부터 동정한 미생물의 관능적 특성분석을 위하여 미생물을 분리한 영양배지에서 7일간 28℃ 에서 배양한 후 평가를 실시하였다. 하기에 박테리아를 영양배지에서 배양하는 과정을 기술하였다.For the analysis of the sensory characteristics of the microorganisms identified from Example 7 above, the microorganisms were cultured in a nutrient medium from which the microorganisms were isolated for 7 days at 28 ° C. The following describes the process of culturing bacteria in a nutrient medium.
① 순수분리배양 된 미생물을 액체영양배지에 접종한다. ① Pure separation Separate the cultured microorganisms into liquid nutrient medium.
② 접종된 배지를 28℃ 에서 5-7일간 배양한다. ② The inoculated medium is incubated at 28 ℃ for 5-7 days.
③ 고체영양배지에 액체배지에서 배양된 균체를 100㎕ 취하여 접종한다. ③ Inoculate the solid nutrient medium with 100 ㎕ of the cultured cells in the liquid medium.
④ 접종한 균체를 spreader를 이용하여 골고루 퍼지게 한다. ④ Spread the inoculated cells evenly using a spreader.
⑤ 패트리디쉬를 밀봉하여 28℃ 에서 10일간 배양한다.
⑤ Seal the Petri dishes and incubate at 28 ℃ for 10 days.
(2) 알루미늄 핀 배지에서의 관능 평가(2) Sensory evaluation in an aluminum pin culture medium
사각형 크기의 알루미늄 핀을 멸균 처리하였고, 이를 먼지 및 영양 배지에 Dipping 시켰다. 이 후 박테리아를 접종하여 상기 영양배지에서의 단계 ② - ④에 기재된 조건과 동일하게 하여 배양시킨 후 평가를 실시하였고 이를 하기 표 8에 관능 평가 결과를 기재하였다.Square size aluminum fins were sterilized and dipped into dust and nutrient media. Thereafter, bacteria were inoculated and cultured in the same manner as described in step (2) - (4) in the nutrient medium, and then evaluated. The results of sensory evaluation were shown in Table 8 below.
① 항균제가 처리된 알루미늄 핀 : 에바코어의 주재료인 알루미늄위에 항균 코팅까지 한 것으로 양산되는 시중에서 구매가 충분히 가능한 에바코어 완제품의 코팅이다. ① Aluminum pin treated with antimicrobial agent: It is a coating of EVA core finished product which can be purchased on the market which is mass produced with antimicrobial coating on aluminum which is the main material of EVA core.
② 항균제 처리가 되지않은 친수코팅처리만 된 알루미늄 핀: 에바코어의 코팅 공정 중 친수 공정 만을 거친 알루미늄 핀이다. 보통은 친수 공정과 항균공정이 동시에 이루어진다. 항균성 코팅핀과 항균성이 없는 코팅핀을 비교하기 위해 특별히 제작한 것이다. 에바코어는 경량화를 위해 알루미늄 핀으로 제작되지만 동 재질steel 재질등 다양한 금속으로도 제조가 가능하다.
② Aluminum Fins that have not been treated with antimicrobial agent and have only hydrophilic coating: It is an aluminum pin that has undergone a hydrophilic process only during the coating process of EVA core. Generally, the hydrophilic process and the antibacterial process are performed at the same time. It is specially designed to compare antimicrobial coated pins with non-antibacterial coated pins. Eva core is made of aluminum pin for light weight but it can be made of various metal such as copper material.
알루미늄 항균제핀 및 무항균제핀에서 모두 상기 11종의 미생물을 접종하여 배양한 결과 모두 무취인 결과가 나타났다. 상기 무취 미생물의 활용분야는 금속 재질에 관계없이 에어컨의 에바코어에 서식하는 미생물에 의한 악취를 방지할 목적으로 충분히 사용될 수 있다.
All of the 11 kinds of microorganisms were inoculated with the aluminum antimicrobial agent fins and the antimicrobial agent fungus, and the results were all odorless. The application field of the above-mentioned odorless microorganisms can be sufficiently used for the purpose of preventing bad odors caused by microorganisms inhabiting the EVA core of the air conditioner regardless of the metal material.
<110> Hyundai Motor Company <120> Methylobacterium brachiatum for Odorless Bioflim-Coated Evaporator Core and uses thereof <160> 11 <170> KopatentIn 1.71 <210> 1 <211> 1411 <212> DNA <213> Methylobacterium aquaticum HKMC-1 <220> <221> rRNA <222> (1)..(1411) <223> 16S rRNA <400> 1 cagagcgaac gctggcggca ggcttaacac atgcaagtcg agcgggccct tcggggtcag 60 cggcagacgg gtgagtaacg cgtgggaacg tgcccttcgg ttcggaataa ctcagggaaa 120 cttgagctaa taccggatac gcccttatgg ggaaaggctt gactgccgaa ggatcggccc 180 gcgtctgatt agctagttgg tgaggttacg gctcaccaag gcgacgatca gtagctggtc 240 tgagaggatg atcagccaca ctgggactga gacacggccc agactcctac gggaggcagc 300 agtggggaat attggacaat gggggcaacc ctgatccagc catgccgcgt gagtgatgac 360 ggccttaggg ttgtaaagct ctttctccgg gacgataatg acggtaccgg aggaataagc 420 cccggctaac ttcgtgccag cagccgcggt aatacgaagg gggctagcgt tgctcggaat 480 cactgggcgt aaagggcgcg taggcggctg atttagtcga gggtgaaagc ccgtggctca 540 accacggaat ggccttcgat actggttggc ttgagaccgg aagaggacag cggaactgcg 600 agtgtagagg tgaaattcgt agatattcgc aagaacacca gtggcgaagg cggctgtctg 660 gtccggttct gacgctgagg cgcgaaagcg tggggagcaa acaggattag ataccctggt 720 agtccacgct gtaaacgatg aatgctagcc gttggggtgc atgcacctca gtggcgccgc 780 taacgcatta agcattccgc ctggggagta cggtcgcaag attaaaactc aaaggaattg 840 acgggggccc gcacaagcgg tggagcatgt ggtttaattc gaagcaacgc gcagaacctt 900 accatccctt gacatggcgt gttatccgga gagatccggg gtccccttcg ggggcgcgca 960 cacaggtgct gcatggctgt cgtcagctcg tgtcgtgaga tgttgggtta agtcccgcaa 1020 cgagcgcaac ccacgtccct agttgccatc atttggttgg gcactctggg gagactgccg 1080 gtgataagcc gcgaggaagg tgtggatgac gtcaagtcct catggccctt acgggatggg 1140 ctacacacgt gctacaatgg cggtgacaat gggcagcgaa ggggcgacct ggagcgaatc 1200 cccaaaagcc gtctcagttc ggattgcact ctgcaactcg ggtgcatgaa ggcggaatcg 1260 ctagtaatcg tggatcagca cgccacggtg aatacgttcc cgggccttgt acacaccgcc 1320 cgtcacacca tgggagttgg tcttacccga cggcgctgcg ccaaccgcaa ggaggcaggc 1380 gaccacggta gggtcagcga ctggggtgaa g 1411 <210> 2 <211> 1416 <212> DNA <213> Methylobacterium brachiatum HKMC-2 <220> <221> rRNA <222> (1)..(1416) <223> 16S rRNA <400> 2 ggctgagaga gaacgggggg ggcaggttta acacatacaa gtagagggga cctttggggg 60 tcagcggcgg acgggtgagt aacgcgtggg aacgtgccct ctggttcgga ataactcagg 120 gaaacttgag ctaataccgg atacgccctt ttggggaaag gcttgctgcc ggaggatcgg 180 cccgcgtctg attagctagt tggtgaggta acggctcacc aaggcgacga tcagtagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgca agcctgatcc agccatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttat ccgggacgat aatgacggta ccggaggaat 420 aagccccggc taacttcgtg ccagcagccg cggtaatacg aagggggcta gcgttgctcg 480 gaatcactgg gcgtaaaggg cgcgtaggcg gcgttttaag tcgggggtga aagcctgtgg 540 ctcaaccaca gaatggcctt cgatactggg acgcttgagt atggtagagg ttggtggaac 600 tgcgagtgta gaggtgaaat tcgtagatat tcgcaagaac accggtggcg aaggcggcca 660 actggaccat tactgacgct gaggcgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgaatgcc agctgttggg gtgcttgcac ctcagtagcg 780 cagctaacgc tttgagcatt ccgcctgggg agtacggtcg caagattaaa actcaaagga 840 attgacgggg gcccgcacaa gcggtggagc atgtggttta attcgaagca acgcgcagaa 900 ccttaccatc ctttgacatg gcgtgttatg gggagagatt cccagtcctc ttcggaggcg 960 cgcacacagg tgctgcatgg ctgtcgtcag ctcgtgtcgt gagatgttgg gttaagtccc 1020 gcaacgagcg caacccacgt ccttagttgc catcattcag ttgggcactc tagggagact 1080 gccggtgata agccgcgagg aaggtgtgga tgacgtcaag tcctcatggc ccttacggga 1140 tgggctacac acgtgctaca atggcggtga cagtgggacg cgaaggggcg acctggagca 1200 aatccccaaa agccgtctca gttcggattg cactctgcaa ctcgggtgca tgaaggcgga 1260 atcgctagta atcgtggatc agcatgccac ggtgaatacg ttcccgggcc ttgtacacac 1320 cgcccgtcac accatgggag ttggtcttac ccgacggcgc tgcgccaacc gcaaggaggc 1380 aggcgaccac ggtagggtca gcgactgggg tgaagt 1416 <210> 3 <211> 1411 <212> DNA <213> Methylobacterium platani HKMC-3 <220> <221> rRNA <222> (1)..(1411) <223> 16S rRNA <400> 3 gaacgaaggc ggcaggctta acacatgcaa gtagagcggg catccctgtg gggttaacgg 60 cagacgggtg agtaaagggt gggaaagtgc cctttggttt ggaataaatt agggaaaact 120 gaagtaattc cggatacgtc cgagagggga aaggtttatc tgccgaagga tcggcccgcg 180 tctgattagc tagttggtga ggttatggct caccaaggcg acgatcagta gctggtctga 240 gaggatgatc agccacactg ggactgagac acggcccaga ctcctacggg aggcagcagt 300 ggggaatatt ggacaatggg ggcaaccctg atccagccat gccgcgtgag tgatgacggc 360 cttagggttg taaagctctt ttctccggga cgataatgac ggtaccggag gaataagccc 420 cggctaactt cgtgccagca gccgcggtaa tacgaagggg gctagcgttg ctcggaatca 480 ctgggcgtaa agggcgcgta ggcggctgat ttagtcgagg gtgaaagccc gtggctcaac 540 cacggaatgg ccttcgatac tgattggctt gagaccggaa gaggacagcg gaactgcgag 600 tgtagaggtg aaattcgtag atattcgcaa gaacaccagt ggcgaaggcg gctgtctggt 660 ccggttctga cgctgaggcg cgaaagcgtg gggagcaaac aggattagat accctggtag 720 tccacgctgt aaacgatgaa tgctagccgt tggggtgcat gcacctcagt ggcgccgcta 780 acgctttaag cattccgcct ggggagtacg gtcgcaagat taaaactcaa aggaattgac 840 gggggcccgc acaagcggtg gagcatgtgg tttaattcga agcaacgcgc agaaccttac 900 catcccttga catggcatgc gagccggaga gatccggtgt tcccttcggg gacgtgcaca 960 caggtgctgc atggctgtcg tcagctcgtg tcgtgagatg ttgggttaag tcccgcaacg 1020 agcgcaaccc acgtcctcag ttgccatcat tcagttgggc actctgggga gactgccggt 1080 gataagccgc gaggaaggtg tggatgacgt caagtcctca tggcccttac gggatgggct 1140 acacacgtgc tacaatggcg gtgacaatgg gcagcgaagg ggcgacctgg agcgaatccc 1200 caaaagccgt ctcagttcgg attgcactct gcaactcggg tgcatgaagg cggaatcgct 1260 agtaatcgtg gatcagcatg ccacggtgaa tacgttcccg ggccttgtac acaccgcccg 1320 tcacaccatg ggagttggtc ttacccgacg gcgctgcgcc aaccgcaagg aggcaggcga 1380 ccacggtagg gtcagcgact ggggtgaagt c 1411 <210> 4 <211> 1472 <212> DNA <213> Acinetobacter johnsonii HKMC-4 <220> <221> rRNA <222> (1)..(1472) <223> 16S rRNA <400> 4 ggctcagatt gaacgctggc ggcaggctta acacatgcaa gtcgagcggg gaaaggtagc 60 ttgctaccta acctagcggc ggacgggtga gtaatgctta ggaatctgcc tattagtggg 120 ggacaacatt ccgaaaggaa tgctaatacc gcatacgccc tacgggggaa agcaggggat 180 cttcggacct tgcgctaata gatgagccta agtcagatta gctagttggt ggggtaaagg 240 cctaccaagg cgacgatctg tagcgggtct gagaggatga tccgccacac tgggactgag 300 acacggccca gactcctacg ggaggcagca gtggggaata ttggacaatg ggcgaaagcc 360 tgatccagcc atgccgcgtg tgtgaagaag gccttttggt tgtaaagcac tttaagcgag 420 gaggaggcta cttagattaa tactctagga tagtggacgt tactcgcaga ataagcaccg 480 gctaactctg tgccagcagc cgcggtaata cagagggtgc gagcgttaat cggatttact 540 gggcgtaaag cgtgcgtagg cggcttctta agtcggatgt gaaatccctg agcttaactt 600 aggaattgca ttcgatactg ggaagctaga gtatgggaga ggatggtaga attccaggtg 660 tagcggtgaa atgcgtagag atctggagga ataccgatgg cgaaggcagc catctggcct 720 aatactgacg ctgaggtacg aaagcatggg gagcaaacag gattagatac cctggtagtc 780 catgccgtaa acgatgtcta ctagccgttg gggcctttga ggctttagtg gcgcagctaa 840 cgcgataagt agaccgcctg gggagtacgg tcgcaagact aaaactcaaa tgaattgacg 900 ggggcccgca caagcggtgg agcatgtggt ttaattcgat gcaacgcgaa gaaccttacc 960 tggtcttgac atagtaagaa ctttccagag atggattggt gccttcggga acttacatac 1020 aggtgctgca tggctgtcgt cagctcgtgt cgtgagatgt tgggttaagt cccgcaacga 1080 gcgcaaccct tttccttatt tgccagcggg ttaagccggg aactttaagg atactgccag 1140 tgacaaactg gaggaaggcg gggacgacgt caagtcatca tggcccttac gaccagggct 1200 acacacgtgc tacaatggtc ggtacaaagg gttgctacct agcgatagga tgctaatctc 1260 aaaaagccga tcgtagtccg gattggagtc tgcaactcga ctccatgaag tcggaatcgc 1320 tagtaatcgc ggatcagaat gccgcggtga atacgttccc gggccttgta cacaccgccc 1380 gtcacaccat gggaatttgt tgcaccagaa gtaggtagtc taaccgcaag gaggacgctt 1440 accacggtgt ggccgatgac tggggtgaag tc 1472 <210> 5 <211> 1485 <212> DNA <213> Bacillus vietnamensis HKMC-5 <220> <221> rRNA <222> (1)..(1485) <223> 16S rRNA <400> 5 ggctcaggac gaacgctggc ggcgtgccta atacatgcaa gtcgagcgga ttgatgggag 60 cttgctccct gatatcagcg gcggacgggt gagtaacacg tgggtaacct gcctgtaaga 120 ctgggataac tccgggaaac cggggctaat accggataac tcatttcctc gcatgaggaa 180 atgttgaaag atggcttcgg ctatcactta cagatggacc cgcggcgcat tagctagttg 240 gtgaggtaac ggctcaccaa ggcaacgatg cgtagccgac ctgagagggt gatcggccac 300 actgggactg agacacggcc cagactccta cgggaggcag cagtagggaa tcttccgcaa 360 tggacgaaag tctgacggag caacgccgcg tgagtgatga aggttttcgg atcgtaaagc 420 tctgttgtta gggaagaaca agtgccgttc gaatagggcg gcacattgac ggtacctaac 480 cagaaagcca cggctaacta cgtgccagca gccgcggtaa tacgtaggtg gcaagcgttg 540 tccggaatta ttgggcgtaa agcgcgcgca ggtggttcct taagtctgat gtgaaagccc 600 acggctcaac cgtggagggt cattggaaac tggggaactt gagtgcagaa gaggaaagtg 660 gaattccaag tgtagcggtg aaatgcgtag atatttggag gaacaccagt ggcgaaggcg 720 actttctggt ctgtaactga cactgaggcg cgaaagcgtg gggagcaaac aggattagat 780 accctggtag tccacgccgt aaacgatgag tgctaagtgt tagggggttt ccgcccctta 840 gtgctgcagc taacgcatta agcactccgc ctggggagta cggtcgcaag actgaaactc 900 aaaggaattg acgggggccc gcacaagcgg tggagcatgt ggtttaattc gaagcaacgc 960 gaagaacctt accaggtctt gacatcctct gacaacccta gagatagggc tttccccttc 1020 gggggacaga gtgacaggtg gtgcatggtt gtcgtcagct cgtgtcgtga gatgttgggt 1080 taagtcccgc aacgagcgca acccttgatc ttagttgcca gcattcagtt gggcactcta 1140 agatgactgc cggtgacaaa ccggaggaag gtggggatga cgtcaaatca tcatgcccct 1200 tatgacctgg gctacacacg tgctacaatg gacggtacaa agggcagcga gaccgcgagg 1260 tttagccaat cccataaaac cgttctcagt tcggattgta ggctgcaact cgcctacatg 1320 aagctggaat cgctagtaat cgcggatcag catgccgcgg tgaatacgtt cccgggcctt 1380 gtacacaccg cccgtcacac cacgagagtt tgtaacaccc gaagtcggtg aggtaacctt 1440 ttggagccag ccgcctaagg tgggacagat gattggggtg aagtc 1485 <210> 6 <211> 1470 <212> DNA <213> Brevibacillus invocatus HKMC-6 <220> <221> rRNA <222> (1)..(1470) <223> 16S rRNA <400> 6 ggttcaggac gaacccgggg ggcgtgctta atccatgcaa gtcgagggag ttttttcaga 60 ccctagcggc ggacgggtga gtaacacgta ggcaacctgc ccataagact gggataacat 120 agggaaactt atgctaatac cggatagagt cttctcccgc atgagagaag acggaaaggt 180 ggcgcaagct accacttgtg gatgggcctg cggcgcatta gctagttggt ggggtaacgg 240 cctaccaagg cgacgatgcg tagccgacct gagagggtga ccggccacac tgggactgag 300 acacggccca gactcctacg ggaggcagca gtagggaatt ttccacaatg gacgaaagtc 360 tgatggagca acgccgcgtg aacgatgaag gccttcgggt tgtaaagttc tgttgtcagg 420 gacgaacaag taccgttcga atagggcggt accttgacgg tacctgacga gaaagccacg 480 gctaactacg tgccagcagc cgcggtaata cgtaggtggc aagcgttgtc cggatttatt 540 gggcgtaaag cgcgcgcagg cggctatgta agtctggtgt taaagcccgg ggctcaaccc 600 cggttcgcat cggaaactgt gtagcttgag tgcagaagag gaaagcggta ttccacgtgt 660 agcggtgaaa tgcgtagaga tgtggaggaa caccagtggc gaaggcggct ttttggtctg 720 taactgacgc tgaggcgcga aagcgtgggg agcaaacagg attagatacc ctggtagtcc 780 acgccgtaaa cgatgagtgc taggtgttag gggtttcaat acccttagtg ccgcagctaa 840 cgcaataagc actccgcctg gggagtacgg tcgcaagact gaaactcaaa ggaattgacg 900 ggggcccgca caagcggtgg agcatgtggt ttaattcgaa gcaacgcgaa gaaccttacc 960 aggtcttgac atcccgctga ccgctctgga gacagagctt cccttcgggg cagcggtgac 1020 aggtggtgca tggttgtcgt cagctcgtgt cgtgagatgt tgggttaagt cccgcaacga 1080 gcgcaaccct tatctttagt tgccagcatt cagttgggca ctctagagag actgccgtcg 1140 acaagacgga ggaaggcggg gatgacgtca aatcatcatg ccccttatga cctgggctac 1200 acacgtgcta caatggttgg tacaacggga tgctacctcg cgagaggatg ccaatctctt 1260 aaaaccaatc tcagttcgga ttgtaggctg caactcgcct acatgaagtc ggaatcgcta 1320 gtaatcgcgg atcagcatgc cgcggtgaat acgttcccgg gccttgtaca caccgcccgt 1380 cacaccacgg gagtttgcaa cacccgaagt cggtgaggta accgcaagga gccagccgcc 1440 gaaggtgggg tagatgactg gggtgaagtc 1470 <210> 7 <211> 1442 <212> DNA <213> Deinococcus ficus HKMC-7 <220> <221> rRNA <222> (1)..(1442) <223> 16S rRNA <400> 7 ggctcagggt gaacgctggc ggcgtgctta agacatgcaa gtcgaacgca gtcttcggac 60 tgagtggcgc acgggtgagt aacacgtaac tgacctgccc caaagtcgcg gataactggc 120 cgaaaggtca gctaatacgt gatgtgatgt cagattctgt tctgccatta aaggtttact 180 gctttgggat ggggttgcgt tccatcagct agatggtgag gtaaaggctc accatggcga 240 cgacggatag ccggcctgag agggtggccg gccacagggg cactgagaca cgggtcccac 300 tcctacggga ggcagcagtt aggaatcttc cccaatgggc gcaagcctga gggagcgacg 360 ccgcgtgagg gatgacggtc ctcggattgt aaacctctga acccacgacg aaaggccccg 420 tatggggaga tgacggtagt ggggtaatag caccggctaa ctccgtgcca gcagccgcgg 480 taatacggag ggtgcaagcg ttacccggaa tcactgggcg taaagggcgt gtaggcggaa 540 atctaagtct ggttttaaag accgaagctc aacttcggaa gtggactgga tactggattt 600 ctagacctct ggagaggaaa ccggaattcc tggtgtagcg gtggaatgcg tagataccag 660 gaggaacacc gatggcgaag gcaggtttct ggacagaagg tgacgctgag gcgcgaaagt 720 gtggggagcg aaccggatta gatacccggg tagtccacac cctaaacgat gtacgttggc 780 ctatggcagg atgctgtcat gggcgaagct aacgcgataa acgtaccgcc tgggaagtac 840 ggccgcaagg ttgaaactca aaggaattga cgggggcccg cacaagcggt ggagcatgtg 900 gtttaattcg aagcaacgcg aagaacctta ccaggtcttg acatcccaag aacctcccag 960 agatgggagg gtgcccctcg gggaacttgg agacaggtgc tgcatggctg tcgtcagctc 1020 gtgtcgtgag atgttgggtt aagtcccgca acgagcgcaa cccttgcctt tagttgccag 1080 cacttcgggt gggcactcta gagggactgc cggtgaaagc cggaggaagg cggggatgac 1140 gtctagtcag catggtcctt acgacctggg cgacacacgt gctacaatgg atggtacaac 1200 gcgcagccag cccgcgaggg tgagcgaatc gctgaaagcc atccccagtt cagatcggag 1260 tctgcaactc gactccgtga agttggaatc gctagtaatc gcgggtcagc ataccgcggt 1320 gaatacgttc ccgggccttg tacacaccgc ccgtcacacc atgggagtac gttgcagttg 1380 aaaccgccgg gagccgcaag gcaggcgtct agactgtggc gcatgactgg ggtgaagtcg 1440 ta 1442 <210> 8 <211> 1455 <212> DNA <213> Leifsonia soli HKMC-8 <220> <221> rRNA <222> (1)..(1455) <223> 16S rRNA <400> 8 tggctcagga cgaacgctgg cggcgtgctt aacacatgca agtcgaacga tgaacctgga 60 gcttgctccg ggggattagt ggcgaacggg tgagtaacac gtgagtaacc tgcccttgac 120 tctgggataa cctccggaaa cggaagctaa taccggatat gacgtacgga ggcatctcct 180 gtacgtggaa agaatttcgg tcaaggatgg actcgcggcc tatcaggtag ttggtgaggt 240 aacggcccac caagcctacg acgggtagcc ggcctgagag ggtgaccggc cacactggga 300 ctgagacacg gcccagactc ctacgggagg cagcagtggg gaatattgca caatgggcgc 360 aagcctgatg cagcaacgcc gcgtgaggga tgacggcctt cgggttgtaa acctctttta 420 gtagggaaga agcgaaagtg acggtacctg cagaaaaagc accggctaac tacgtgccag 480 cagccgcggt aatacgtagg gtgcgagcgt tgtccggaat tattgggcgt aaagagctcg 540 taggcggtct gtcgcgtctg ctgtgaaaac ccgaggctca acctcgggcc tgcagtgggt 600 acgggcagac tagagtgcgg taggggagaa tggaattcct ggtgtagcgg tggaatgcgc 660 agatatcagg aggaacaccg atggcgaagg cagttctctg ggccgtaact gacgctgagg 720 agcgaaagcg tggggagcga acaggattag ataccctggt agtccacgcc gtaaacgttg 780 ggcgctagat gtggggacca ttccacggtt tccgtgtcgc agctaacgca ttaagcgccc 840 cgcctgggga gtacggccgc aaggctaaaa ctcaaaggaa ttgacggggg cccgcacaag 900 cggcggagca tgcggattaa ttcgatgcaa cgcgaagaac cttaccaagg cttgacatat 960 acgagaacgg gccagaaatg gtcaactctt tggacactcg taaacaggtg gtgcatggtt 1020 gtcgtcagct cgtgtcgtga gatgttgggt taagtcccgc aacgagcgca accctcgttc 1080 tatgttgcca gcgcgtaatg gcgggaactc ataggagact gccggggtca actcggagga 1140 aggtggggat gacgtcaaat catcatgccc cttatgtctt gggcttcacg catgctacaa 1200 tggccggtac aaagggctgc aataccgtaa ggtggagcga atcccaaaaa gccggtctca 1260 gttcggattg aggtctgcaa ctcgacctca tgaagtcgga gtcgctagta atcgcagatc 1320 agcaacgctg cggagaatac ctacccgggc cttgtacaca ccgcccgtca agtcatgaaa 1380 gtcggtaaca cccgaagcca ttggcccaac ccttgtggag ggagctgtcc aaggtgggat 1440 cggtgattac cagtt 1455 <210> 9 <211> 1471 <212> DNA <213> Pseudomonas nitroreducens HKMC-9 <220> <221> rRNA <222> (1)..(1471) <223> 16S rRNA <400> 9 ggctcagatt gaacgctggc ggcaggccta acacatgcaa gtcgagcgga tgagtggagc 60 ttgctccatg attcagcggc ggacgggtga gtaatgccta ggaatctgcc tggtagtggg 120 ggacaacgtt tcgaaaggaa cgctaatacc gcatacgtcc tacgggagaa agcaggggac 180 cttcgggcct tgcgctatca gatgagccta ggtcggatta gctagttggt ggggtaaagg 240 cctaccaagg cgacgatccg taactggtct gagaggatga tcagtcacac tggaactgag 300 acacggtcca gactcctacg ggaggcagca gtggggaata ttggacaatg ggcgaaagcc 360 tgatccagcc atgccgcgtg tgtgaagaag gtcttcggat tgtaaagcac tttaagttgg 420 gaggaagggc agtaagttaa taccttgctg ttttgacgtt accaacagaa taagcaccgg 480 ctaacttcgt gccagcagcc gcggtaatac gaagggtgca agcgttaatc ggaattactg 540 ggcgtaaagc gcgcgtaggt ggtttggtaa gatggatgtg aaatccccgg gctcaacctg 600 ggaactgcat ccataactgc ctgactagag tacggtagag ggtggtggaa tttcctgtgt 660 agcggtgaaa tgcgtagata taggaaggaa caccagtggc gaaggcgacc acctggactg 720 atactgacac tgaggtgcga aagcgtgggg agcaaacagg attagatacc ctggtagtcc 780 acgccgtaaa cgatgtcgac tagccgttgg gatccttgag atcttagtgg cgcagctaac 840 gcgataagtc gaccgcctgg ggagtacggc cgcaaggtta aaactcaaat gaattgacgg 900 gggcccgcac aagcggtgga gcatgtggtt taattcgaag caacgcgaag aaccttacct 960 ggccttgaca tgtccggaac cttgcagaga tgcgagggtg ccttcgggaa tcggaacaca 1020 ggtgctgcat ggctgtcgtc agctcgtgtc gtgagatgtt gggttaagtc ccgtaacgag 1080 cgcaaccctt gtccttagtt accagcacgt tatggtgggc actctaagga gactgccggt 1140 gacaaaccgg aggaaggtgg ggatgacgtc aagtcatcat ggcccttacg gccagggcta 1200 cacacgtgct acaatggtcg gtacagaggg ttgccaagcc gcgaggtgga gctaatccca 1260 taaaaccgat cgtagtccgg atcgcagtct gcaactcgac tgcgtgaagt cggaatcgct 1320 agtaatcgtg aatcagaatg tcacggtgaa tacgttcccg ggccttgtac acaccgcccg 1380 tcacaccatg ggagtgggtt gctccagaag tagctagtct aaccgcaagg gggacggtta 1440 ccacggagtg attcatgact ggggtgaagt c 1471 <210> 10 <211> 1421 <212> DNA <213> Sphingomonas aquatilis HKMC-10 <220> <221> rRNA <222> (1)..(1421) <223> 16S rRNA <400> 10 ggctcagaac gaacgctggc ggcatgccta acacatgcaa gtcgaacgag atcttcgggt 60 ctagtggcgc acgggtgcgt aacgcgtggg aatctgccct ttggttcgga ataacagttg 120 gaaacgactg ctaataccgg atgatgacga aagtccaaag atttatcgcc agaggatgag 180 cccgcgtagg attagctagt tggtgtggta aaggcgcacc aaggcgacga tccttagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgaa agcctgatcc agcaatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttac ccgggatgat aatgacagta ccgggagaat 420 aagctccggc taactccgtg ccagcagccg cggtaatacg gagggagcta gcgttgttcg 480 gaattactgg gcgtaaagcg cacgtaggcg gctttgtaag ttagaggtga aagcctggag 540 ctcaactcca gaactgcctt taagactgca tcgcttgaat ccaggagagg tgagtggaat 600 tccgagtgta gaggtgaaat tcgtagatat tcggaagaac accagtggcg aaggcggctc 660 actggactgg tattgacgct gaggtgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgataact agctgtccgg ggacttggtc tttgggtggc 780 gcagctaacg cattaagtta tccgcctggg gagtacggcc gcaaggttaa aactcaaatg 840 aattgacggg ggcctgcaca agcggtggag catgtggttt aattcgaagc aacgcgcaga 900 accttaccag cgtttgacat gtccggacga tttccagaga tggatctctt cccttcgggg 960 actggaacac aggtgctgca tggctgtcgt cagctcgtgt cgtgagatgt tgggttaagt 1020 cccgcaacga gcgcaaccct cgcctttagt taccatcatt tagttgggga ctctaaagga 1080 accgccggtg ataagccgga ggaaggtggg gatgacgtca agtcctcatg gcccttacgc 1140 gctgggctac acacgtgcta caatggcggt gacagtgggc agcaaactcg cgagagtgcg 1200 ctaatctcca aaagccgtct cagttcggat tgttctctgc aactcgagag catgaaggcg 1260 gaatcgctag taatcgcgga tcagcatgcc gcggtgaata cgttcccagg ccttgtacac 1320 accgcccgtc acaccatggg agttgggttc acccgaaggc gttgcgctaa ctcgcaagag 1380 aggcaggcga ccacggtggg cttagcgact ggggtgaagt c 1421 <210> 11 <211> 1419 <212> DNA <213> Methylobacterium komagatae HKMC-11 <220> <221> rRNA <222> (1)..(1419) <223> 16S rRNA <400> 11 ggctcagagc gaacgctggc ggcaggctta acacatgcaa gtcgagcggg cctttcgggg 60 tcagcggcgg acgggtgagt aacgcgtggg aacgtgcctt ctggttcgga ataactcagg 120 gaaacttgag ctaataccgg atacgccctt ttggggaaag gtttactgcc ggaagatcgg 180 cccgcgtctg attagctagt tggtggggta acggcctacc aaggcgacga tcagtagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgca agcctgatcc agccatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttat ccgggacgat aatgacggta ccggaggaat 420 aagccccggc taacttcgtg ccagcagccg cggtaatacg aagggggcta gcgttgctcg 480 gaatcactgg gcgtaaaggg cgcgtaggcg gtcttttaag tcgggggtga aagcctgtgg 540 ctcaaccaca gaattgcctt cgatactggg agacttgagt tcggaagagg ttggtggaac 600 tgcgagtgta gaggtgaaat tcgtagatat tcgcaagaac accggtggcg aaggcggcca 660 actggtccga cactgacgct gaggcgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgaatgcc agccgttggg gggcttgcct ctcagtggcg 780 cagctaacgc tttgagcatt ccgcctgggg agtacggtcg caagattaaa actcaaagga 840 attgacgggg gcccgcacaa gcggtggagc atgtggttta attcgaagca acgcgcagaa 900 ccttaccatc ctttgacatg gcgtgttacc cagagagatt tggggtccac ttcggtggcg 960 cgcacacagg tgctgcatgg ctgtcgtcag ctcgtgtcgt gagatgttgg gttaagtccc 1020 gcaacgagcg caacccacgt cctcagttgc catcattgag ttgggcactc tggggagact 1080 gccggtgata agccgcgagg aaggtgtgga tgacgtcaag tcctcatggc ccttacggga 1140 tgggctacac acgtgctaca atggcggtga cagtgggaag cgaacccgcg aggggaagca 1200 aatctccaaa agccgtctca gttcggattg cactctgcaa ctcgagtgca tgaaggcgga 1260 atcgctagta atcgtggatc agcatgccac ggtgaatacg ttcccgggcc ttgtacacac 1320 cgcccgtcac accatgggag ttggtcttac ccgacggcgc tgcgccgacc cgcgagggga 1380 gcaggcgacc acggtagggt cagcgactgg ggtgaagtc 1419 <110> Hyundai Motor Company <120> Methylobacterium brachiatum for Odorless Bioflim-Coated Evaporator Core and uses thereof <160> 11 <170> Kopatentin 1.71 <210> 1 <211> 1411 <212> DNA <213> Methylobacterium aquaticum HKMC-1 <220> <221> rRNA ≪ 222 > (1) <223> 16S rRNA <400> 1 cagagcgaac gctggcggca ggcttaacac atgcaagtcg agcgggccct tcggggtcag 60 cggcagacgg gtgagtaacg cgtgggaacg tgcccttcgg ttcggaataa ctcagggaaa 120 cttgagctaa taccggatac gcccttatgg ggaaaggctt gactgccgaa ggatcggccc 180 gcgtctgatt agctagttgg tgaggttacg gctcaccaag gcgacgatca gtagctggtc 240 tgagaggatg atcagccaca ctgggactga gacacggccc agactcctac gggaggcagc 300 agtggggaat attggacaat gggggcaacc ctgatccagc catgccgcgt gagtgatgac 360 ggccttaggg ttgtaaagct ctttctccgg gacgataatg acggtaccgg aggaataagc 420 cccggctaac ttcgtgccag cagccgcggt aatacgaagg gggctagcgt tgctcggaat 480 cactgggcgt aaagggcgcg taggcggctg atttagtcga gggtgaaagc ccgtggctca 540 accacggaat ggccttcgat actggttggc ttgagaccgg aagaggacag cggaactgcg 600 agtgtagagg tgaaattcgt agatattcgc aagaacacca gtggcgaagg cggctgtctg 660 gtccggttct gacgctgagg cgcgaaagcg tggggagcaa acaggattag ataccctggt 720 agtccacgct gtaaacgatg aatgctagcc gttggggtgc atgcacctca gtggcgccgc 780 taacgcatta agcattccgc ctggggagta cggtcgcaag attaaaactc aaaggaattg 840 acgggggccc gcacaagcgg tggagcatgt ggtttaattc gaagcaacgc gcagaacctt 900 accatccctt gacatggcgt gttatccgga gagatccggg gtccccttcg ggggcgcgca 960 cacaggtgct gcatggctgt cgtcagctcg tgtcgtgaga tgttgggtta agtcccgcaa 1020 cgagcgcaac ccacgtccct agttgccatc atttggttgg gcactctggg gagactgccg 1080 gtgataagcc gcgaggaagg tgtggatgac gtcaagtcct catggccctt acgggatggg 1140 ctacacacgt gctacaatgg cggtgacaat gggcagcgaa ggggcgacct ggagcgaatc 1200 cccaaaagcc gtctcagttc ggattgcact ctgcaactcg ggtgcatgaa ggcggaatcg 1260 ctagtaatcg tggatcagca cgccacggtg aatacgttcc cgggccttgt acacaccgcc 1320 cgtcacacca tgggagttgg tcttacccga cggcgctgcg ccaaccgcaa ggaggcaggc 1380 gaccacggta gggtcagcga ctggggtgaa g 1411 <210> 2 <211> 1416 <212> DNA <213> Methylobacterium brachiatum HKMC-2 <220> <221> rRNA ≪ 222 > (1) .. (1416) <223> 16S rRNA <400> 2 ggctgagaga gaacgggggg ggcaggttta acacatacaa gtagagggga cctttggggg 60 tcagcggcgg acgggtgagt aacgcgtggg aacgtgccct ctggttcgga ataactcagg 120 gaaacttgag ctaataccgg atacgccctt ttggggaaag gcttgctgcc ggaggatcgg 180 cccgcgtctg attagctagt tggtgaggta acggctcacc aaggcgacga tcagtagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgca agcctgatcc agccatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttat ccgggacgat aatgacggta ccggaggaat 420 aagccccggc taacttcgtg ccagcagccg cggtaatacg aagggggcta gcgttgctcg 480 gaatcactgg gcgtaaaggg cgcgtaggcg gcgttttaag tcgggggtga aagcctgtgg 540 ctcaaccaca gaatggcctt cgatactggg acgcttgagt atggtagagg ttggtggaac 600 tgcgagtgta gaggtgaaat tcgtagatat tcgcaagaac accggtggcg aaggcggcca 660 actggaccat tactgacgct gaggcgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgaatgcc agctgttggg gtgcttgcac ctcagtagcg 780 cagctaacgc tttgagcatt ccgcctgggg agtacggtcg caagattaaa actcaaagga 840 attgacgggg gcccgcacaa gcggtggagc atgtggttta attcgaagca acgcgcagaa 900 ccttaccatc ctttgacatg gcgtgttatg gggagagatt cccagtcctc ttcggaggcg 960 cgcacacagg tgctgcatgg ctgtcgtcag ctcgtgtcgt gagatgttgg gttaagtccc 1020 gcaacgagcg caacccacgt ccttagttgc catcattcag ttgggcactc tagggagact 1080 gccggtgata agccgcgagg aaggtgtgga tgacgtcaag tcctcatggc ccttacggga 1140 tgggctacac acgtgctaca atggcggtga cagtgggacg cgaaggggcg acctggagca 1200 aatccccaaa agccgtctca gttcggattg cactctgcaa ctcgggtgca tgaaggcgga 1260 atcgctagta atcgtggatc agcatgccac ggtgaatacg ttcccgggcc ttgtacacac 1320 cgcccgtcac accatgggag ttggtcttac ccgacggcgc tgcgccaacc gcaaggaggc 1380 aggcgaccac ggtagggtca gcgactgggg tgaagt 1416 <210> 3 <211> 1411 <212> DNA <213> Methylobacterium platani HKMC-3 <220> <221> rRNA ≪ 222 > (1) <223> 16S rRNA <400> 3 gaacgaaggc ggcaggctta acacatgcaa gtagagggg catccctgtg gggttaacgg 60 cagacgggtg agtaaagggt gggaaagtgc cctttggttt ggaataaatt agggaaaact 120 gaagtaattc cggatacgtc cgagagggga aaggtttatc tgccgaagga tcggcccgcg 180 tctgattagc tagttggtga ggttatggct caccaaggcg acgatcagta gctggtctga 240 gaggatgatc agccacactg ggactgagac acggcccaga ctcctacggg aggcagcagt 300 ggggaatatt ggacaatggg ggcaaccctg atccagccat gccgcgtgag tgatgacggc 360 cttagggttg taaagctctt ttctccggga cgataatgac ggtaccggag gaataagccc 420 cggctaactt cgtgccagca gccgcggtaa tacgaagggg gctagcgttg ctcggaatca 480 ctgggcgtaa agggcgcgta ggcggctgat ttagtcgagg gtgaaagccc gtggctcaac 540 cacggaatgg ccttcgatac tgattggctt gagaccggaa gaggacagcg gaactgcgag 600 tgtagaggtg aaattcgtag atattcgcaa gaacaccagt ggcgaaggcg gctgtctggt 660 ccggttctga cgctgaggcg cgaaagcgtg gggagcaaac aggattagat accctggtag 720 tccacgctgt aaacgatgaa tgctagccgt tggggtgcat gcacctcagt ggcgccgcta 780 acgctttaag cattccgcct ggggagtacg gtcgcaagat taaaactcaa aggaattgac 840 gggggcccgc acaagcggtg gagcatgtgg tttaattcga agcaacgcgc agaaccttac 900 catcccttga catggcatgc gagccggaga gatccggtgt tcccttcggg gacgtgcaca 960 caggtgctgc atggctgtcg tcagctcgtg tcgtgagatg ttgggttaag tcccgcaacg 1020 agcgcaaccc acgtcctcag ttgccatcat tcagttgggc actctgggga gactgccggt 1080 gataagccgc gaggaaggtg tggatgacgt caagtcctca tggcccttac gggatgggct 1140 acacacgtgc tacaatggcg gtgacaatgg gcagcgaagg ggcgacctgg agcgaatccc 1200 caaaagccgt ctcagttcgg attgcactct gcaactcggg tgcatgaagg cggaatcgct 1260 agtaatcgtg gatcagcatg ccacggtgaa tacgttcccg ggccttgtac acaccgcccg 1320 tcacaccatg ggagttggtc ttacccgacg gcgctgcgcc aaccgcaagg aggcaggcga 1380 ccacggtagg gtcagcgact ggggtgaagt c 1411 <210> 4 <211> 1472 <212> DNA <213> Acinetobacter johnsonii HKMC-4 <220> <221> rRNA ≪ 222 > (1) .. (1472) <223> 16S rRNA <400> 4 ggctcagatt gaacgctggc ggcaggctta acacatgcaa gtcgagcggg gaaaggtagc 60 ttgctaccta acctagcggc ggacgggtga gtaatgctta ggaatctgcc tattagtggg 120 ggacaacatt ccgaaaggaa tgctaatacc gcatacgccc tacgggggaa agcaggggat 180 cttcggacct tgcgctaata gatgagccta agtcagatta gctagttggt ggggtaaagg 240 cctaccaagg cgacgatctg tagcgggtct gagaggatga tccgccacac tgggactgag 300 acacggccca gactcctacg ggaggcagca gtggggaata ttggacaatg ggcgaaagcc 360 tgatccagcc atgccgcgtg tgtgaagaag gccttttggt tgtaaagcac tttaagcgag 420 gaggaggcta cttagattaa tactctagga tagtggacgt tactcgcaga ataagcaccg 480 gctaactctg tgccagcagc cgcggtaata cagagggtgc gagcgttaat cggatttact 540 gggcgtaaag cgtgcgtagg cggcttctta agtcggatgt gaaatccctg agcttaactt 600 aggaattgca ttcgatactg ggaagctaga gtatgggaga ggatggtaga attccaggtg 660 tagcggtgaa atgcgtagag atctggagga ataccgatgg cgaaggcagc catctggcct 720 aatactgacg ctgaggtacg aaagcatggg gagcaaacag gattagatac cctggtagtc 780 catgccgtaa acgatgtcta ctagccgttg gggcctttga ggctttagtg gcgcagctaa 840 cgcgataagt agaccgcctg gggagtacgg tcgcaagact aaaactcaaa tgaattgacg 900 ggggcccgca caagcggtgg agcatgtggt ttaattcgat gcaacgcgaa gaaccttacc 960 tggtcttgac atagtaagaa ctttccagag atggattggt gccttcggga acttacatac 1020 aggtgctgca tggctgtcgt cagctcgtgt cgtgagatgt tgggttaagt cccgcaacga 1080 gcgcaaccct tttccttatt tgccagcggg ttaagccggg aactttaagg atactgccag 1140 tgacaaactg gaggaaggcg gggacgacgt caagtcatca tggcccttac gaccagggct 1200 acacacgtgc tacaatggtc ggtacaaagg gttgctacct agcgatagga tgctaatctc 1260 aaaaagccga tcgtagtccg gattggagtc tgcaactcga ctccatgaag tcggaatcgc 1320 tagtaatcgc ggatcagaat gccgcggtga atacgttccc gggccttgta cacaccgccc 1380 gtcacaccat gggaatttgt tgcaccagaa gtaggtagtc taaccgcaag gaggacgctt 1440 accacggtgt ggccgatgac tggggtgaag tc 1472 <210> 5 <211> 1485 <212> DNA <213> Bacillus vietnamensis HKMC-5 <220> <221> rRNA ≪ 222 > (1) .. (1485) <223> 16S rRNA <400> 5 ggctcaggac gaacgctggc ggcgtgccta atacatgcaa gtcgagcgga ttgatgggag 60 cttgctccct gatatcagcg gcggacgggt gagtaacacg tgggtaacct gcctgtaaga 120 ctgggataac tccgggaaac cggggctaat accggataac tcatttcctc gcatgaggaa 180 atgttgaaag atggcttcgg ctatcactta cagatggacc cgcggcgcat tagctagttg 240 gtgaggtaac ggctcaccaa ggcaacgatg cgtagccgac ctgagagggt gatcggccac 300 actgggactg agacacggcc cagactccta cgggaggcag cagtagggaa tcttccgcaa 360 tggacgaaag tctgacggag caacgccgcg tgagtgatga aggttttcgg atcgtaaagc 420 tctgttgtta gggaagaaca agtgccgttc gaatagggcg gcacattgac ggtacctaac 480 cagaaagcca cggctaacta cgtgccagca gccgcggtaa tacgtaggtg gcaagcgttg 540 tccggaatta ttgggcgtaa agcgcgcgca ggtggttcct taagtctgat gtgaaagccc 600 acggctcaac cgtggagggt cattggaaac tggggaactt gagtgcagaa gaggaaagtg 660 gaattccaag tgtagcggtg aaatgcgtag atatttggag gaacaccagt ggcgaaggcg 720 actttctggt ctgtaactga cactgaggcg cgaaagcgtg gggagcaaac aggattagat 780 accctggtag tccacgccgt aaacgatgag tgctaagtgt tagggggttt ccgcccctta 840 gtgctgcagc taacgcatta agcactccgc ctggggagta cggtcgcaag actgaaactc 900 aaaggaattg acgggggccc gcacaagcgg tggagcatgt ggtttaattc gaagcaacgc 960 gaagaacctt accaggtctt gacatcctct gacaacccta gagatagggc tttccccttc 1020 gggggacaga gtgacaggtg gtgcatggtt gtcgtcagct cgtgtcgtga gatgttgggt 1080 taagtcccgc aacgagcgca acccttgatc ttagttgcca gcattcagtt gggcactcta 1140 agatgactgc cggtgacaaa ccggaggaag gtggggatga cgtcaaatca tcatgcccct 1200 tatgacctgg gctacacacg tgctacaatg gacggtacaa agggcagcga gaccgcgagg 1260 tttagccaat cccataaaac cgttctcagt tcggattgta ggctgcaact cgcctacatg 1320 aagctggaat cgctagtaat cgcggatcag catgccgcgg tgaatacgtt cccgggcctt 1380 gtacacaccg cccgtcacac cacgagagtt tgtaacaccc gaagtcggtg aggtaacctt 1440 ttggagccag ccgcctaagg tgggacagat gattggggtg aagtc 1485 <210> 6 <211> 1470 <212> DNA <213> Brevibacillus invocatus HKMC-6 <220> <221> rRNA ≪ 222 > (1) .. (1470) <223> 16S rRNA <400> 6 ggttcaggac gaacccgggg ggcgtgctta atccatgcaa gtcgagggag ttttttcaga 60 ccctagcggc ggacgggtga gtaacacgta ggcaacctgc ccataagact gggataacat 120 agggaaactt atgctaatac cggatagagt cttctcccgc atgagagaag acggaaaggt 180 ggcgcaagct accacttgtg gatgggcctg cggcgcatta gctagttggt ggggtaacgg 240 cctaccaagg cgacgatgcg tagccgacct gagagggtga ccggccacac tgggactgag 300 acacggccca gactcctacg ggaggcagca gtagggaatt ttccacaatg gacgaaagtc 360 tgatggagca acgccgcgtg aacgatgaag gccttcgggt tgtaaagttc tgttgtcagg 420 gacgaacaag taccgttcga atagggcggt accttgacgg tacctgacga gaaagccacg 480 gctaactacg tgccagcagc cgcggtaata cgtaggtggc aagcgttgtc cggatttatt 540 gggcgtaaag cgcgcgcagg cggctatgta agtctggtgt taaagcccgg ggctcaaccc 600 cggttcgcat cggaaactgt gtagcttgag tgcagaagag gaaagcggta ttccacgtgt 660 agcggtgaaa tgcgtagaga tgtggaggaa caccagtggc gaaggcggct ttttggtctg 720 taactgacgc tgaggcgcga aagcgtgggg agcaaacagg attagatacc ctggtagtcc 780 acgccgtaaa cgatgagtgc taggtgttag gggtttcaat acccttagtg ccgcagctaa 840 cgcaataagc actccgcctg gggagtacgg tcgcaagact gaaactcaaa ggaattgacg 900 ggggcccgca caagcggtgg agcatgtggt ttaattcgaa gcaacgcgaa gaaccttacc 960 aggtcttgac atcccgctga ccgctctgga gacagagctt cccttcgggg cagcggtgac 1020 aggtggtgca tggttgtcgt cagctcgtgt cgtgagatgt tgggttaagt cccgcaacga 1080 gcgcaaccct tatctttagt tgccagcatt cagttgggca ctctagagag actgccgtcg 1140 acaagacgga ggaaggcggg gatgacgtca aatcatcatg ccccttatga cctgggctac 1200 acacgtgcta caatggttgg tacaacggga tgctacctcg cgagaggatg ccaatctctt 1260 aaaaccaatc tcagttcgga ttgtaggctg caactcgcct acatgaagtc ggaatcgcta 1320 gtaatcgcgg atcagcatgc cgcggtgaat acgttcccgg gccttgtaca caccgcccgt 1380 cacaccacgg gagtttgcaa cacccgaagt cggtgaggta accgcaagga gccagccgcc 1440 gaaggtgggg tagatgactg gggtgaagtc 1470 <210> 7 <211> 1442 <212> DNA <213> Deinococcus ficus HKMC-7 <220> <221> rRNA ≪ 222 > (1) .. (1442) <223> 16S rRNA <400> 7 ggctcagggt gaacgctggc ggcgtgctta agacatgcaa gtcgaacgca gtcttcggac 60 tgagtggcgc acgggtgagt aacacgtaac tgacctgccc caaagtcgcg gataactggc 120 cgaaaggtca gctaatacgt gatgtgatgt cagattctgt tctgccatta aaggtttact 180 gctttgggat ggggttgcgt tccatcagct agatggtgag gtaaaggctc accatggcga 240 cgacggatag ccggcctgag agggtggccg gccacagggg cactgagaca cgggtcccac 300 tcctacggga ggcagcagtt aggaatcttc cccaatgggc gcaagcctga gggagcgacg 360 ccgcgtgagg gatgacggtc ctcggattgt aaacctctga acccacgacg aaaggccccg 420 tatggggaga tgacggtagt ggggtaatag caccggctaa ctccgtgcca gcagccgcgg 480 taatacggag ggtgcaagcg ttacccggaa tcactgggcg taaagggcgt gtaggcggaa 540 atctaagtct ggttttaaag accgaagctc aacttcggaa gtggactgga tactggattt 600 ctagacctct ggagaggaaa ccggaattcc tggtgtagcg gtggaatgcg tagataccag 660 gggaacacc gatggcgaag gcaggtttct ggacagaagg tgacgctgag gcgcgaaagt 720 gtggggagcg aaccggatta gatacccggg tagtccacac cctaaacgat gtacgttggc 780 ctatggcagg atgctgtcat gggcgaagct aacgcgataa acgtaccgcc tgggaagtac 840 ggccgcaagg ttgaaactca aaggaattga cgggggcccg cacaagcggt ggagcatgtg 900 gtttaattcg aagcaacgcg aagaacctta ccaggtcttg acatcccaag aacctcccag 960 agatgggagg gtgcccctcg gggaacttgg agacaggtgc tgcatggctg tcgtcagctc 1020 gtgtcgtgag atgttgggtt aagtcccgca acgagcgcaa cccttgcctt tagttgccag 1080 cacttcgggt gggcactcta gagggactgc cggtgaaagc cggaggaagg cggggatgac 1140 gtctagtcag catggtcctt acgacctggg cgacacacgt gctacaatgg atggtacaac 1200 gcgcagccag cccgcgaggg tgagcgaatc gctgaaagcc atccccagtt cagatcggag 1260 tctgcaactc gactccgtga agttggaatc gctagtaatc gcgggtcagc ataccgcggt 1320 gaatacgttc ccgggccttg tacacaccgc ccgtcacacc atgggagtac gttgcagttg 1380 aaaccgccgg gagccgcaag gcaggcgtct agactgtggc gcatgactgg ggtgaagtcg 1440 ta 1442 <210> 8 <211> 1455 <212> DNA <213> Leifsonia soli HKMC-8 <220> <221> rRNA ≪ 222 > (1) .. (1455) <223> 16S rRNA <400> 8 tggctcagga cgaacgctgg cggcgtgctt aacacatgca agtcgaacga tgaacctgga 60 gcttgctccg ggggattagt ggcgaacggg tgagtaacac gtgagtaacc tgcccttgac 120 tctgggataa cctccggaaa cggaagctaa taccggatat gacgtacgga ggcatctcct 180 gtacgtggaa agaatttcgg tcaaggatgg actcgcggcc tatcaggtag ttggtgaggt 240 aacggcccac caagcctacg acgggtagcc ggcctgagag ggtgaccggc cacactggga 300 ctgagacacg gcccagactc ctacgggagg cagcagtggg gaatattgca caatgggcgc 360 aagcctgatg cagcaacgcc gcgtgaggga tgacggcctt cgggttgtaa acctctttta 420 gtagggaaga agcgaaagtg acggtacctg cagaaaaagc accggctaac tacgtgccag 480 cagccgcggt aatacgtagg gtgcgagcgt tgtccggaat tattgggcgt aaagagctcg 540 taggcggtct gtcgcgtctg ctgtgaaaac ccgaggctca acctcgggcc tgcagtgggt 600 acgggcagac tagagtgcgg taggggagaa tggaattcct ggtgtagcgg tggaatgcgc 660 agatatcagg aggaacaccg atggcgaagg cagttctctg ggccgtaact gacgctgagg 720 agcgaaagcg tggggagcga acaggattag ataccctggt agtccacgcc gtaaacgttg 780 ggcgctagat gtggggacca ttccacggtt tccgtgtcgc agctaacgca ttaagcgccc 840 cgcctgggga gtacggccgc aaggctaaaa ctcaaaggaa ttgacggggg cccgcacaag 900 cggcggagca tgcggattaa ttcgatgcaa cgcgaagaac cttaccaagg cttgacatat 960 acgagaacgg gccagaaatg gtcaactctt tggacactcg taaacaggtg gtgcatggtt 1020 gtcgtcagct cgtgtcgtga gatgttgggt taagtcccgc aacgagcgca accctcgttc 1080 tatgttgcca gcgcgtaatg gcgggaactc ataggagact gccggggtca actcggagga 1140 aggtggggat gacgtcaaat catcatgccc cttatgtctt gggcttcacg catgctacaa 1200 tggccggtac aaagggctgc aataccgtaa ggtggagcga atcccaaaaa gccggtctca 1260 gttcggattg aggtctgcaa ctcgacctca tgaagtcgga gtcgctagta atcgcagatc 1320 agcaacgctg cggagaatac ctacccgggc cttgtacaca ccgcccgtca agtcatgaaa 1380 gtcggtaaca cccgaagcca ttggcccaac ccttgtggag ggagctgtcc aaggtgggat 1440 cggtgattac cagtt 1455 <210> 9 <211> 1471 <212> DNA <213> Pseudomonas nitroreducens HKMC-9 <220> <221> rRNA ≪ 222 > (1) .. (1471) <223> 16S rRNA <400> 9 ggctcagatt gaacgctggc ggcaggccta acacatgcaa gtcgagcgga tgagtggagc 60 ttgctccatg attcagcggc ggacgggtga gtaatgccta ggaatctgcc tggtagtggg 120 ggacaacgtt tcgaaaggaa cgctaatacc gcatacgtcc tacgggagaa agcaggggac 180 cttcgggcct tgcgctatca gatgagccta ggtcggatta gctagttggt ggggtaaagg 240 cctaccaagg cgacgatccg taactggtct gagaggatga tcagtcacac tggaactgag 300 acacggtcca gactcctacg ggaggcagca gtggggaata ttggacaatg ggcgaaagcc 360 tgatccagcc atgccgcgtg tgtgaagaag gtcttcggat tgtaaagcac tttaagttgg 420 gaggaagggc agtaagttaa taccttgctg ttttgacgtt accaacagaa taagcaccgg 480 ctaacttcgt gccagcagcc gcggtaatac gaagggtgca agcgttaatc ggaattactg 540 ggcgtaaagc gcgcgtaggt ggtttggtaa gatggatgtg aaatccccgg gctcaacctg 600 ggaactgcat ccataactgc ctgactagag tacggtagag ggtggtggaa tttcctgtgt 660 agcggtgaaa tgcgtagata taggaaggaa caccagtggc gaaggcgacc acctggactg 720 atactgacac tgaggtgcga aagcgtgggg agcaaacagg attagatacc ctggtagtcc 780 acgccgtaaa cgatgtcgac tagccgttgg gatccttgag atcttagtgg cgcagctaac 840 gcgataagtc gaccgcctgg ggagtacggc cgcaaggtta aaactcaaat gaattgacgg 900 gggcccgcac aagcggtgga gcatgtggtt taattcgaag caacgcgaag aaccttacct 960 ggccttgaca tgtccggaac cttgcagaga tgcgagggtg ccttcgggaa tcggaacaca 1020 ggtgctgcat ggctgtcgtc agctcgtgtc gtgagatgtt gggttaagtc ccgtaacgag 1080 cgcaaccctt gtccttagtt accagcacgt tatggtgggc actctaagga gactgccggt 1140 gacaaaccgg aggaaggtgg ggatgacgtc aagtcatcat ggcccttacg gccagggcta 1200 cacacgtgct acaatggtcg gtacagaggg ttgccaagcc gcgaggtgga gctaatccca 1260 taaaaccgat cgtagtccgg atcgcagtct gcaactcgac tgcgtgaagt cggaatcgct 1320 agtaatcgtg aatcagaatg tcacggtgaa tacgttcccg ggccttgtac acaccgcccg 1380 tcacaccatg ggagtgggtt gctccagaag tagctagtct aaccgcaagg gggacggtta 1440 ccacggagtg attcatgact ggggtgaagt c 1471 <210> 10 <211> 1421 <212> DNA <213> Sphingomonas aquatilis HKMC-10 <220> <221> rRNA ≪ 222 > (1) .. (1421) <223> 16S rRNA <400> 10 ggctcagaac gaacgctggc ggcatgccta acacatgcaa gtcgaacgag atcttcgggt 60 ctagtggcgc acgggtgcgt aacgcgtggg aatctgccct ttggttcgga ataacagttg 120 gaaacgactg ctaataccgg atgatgacga aagtccaaag atttatcgcc agaggatgag 180 cccgcgtagg attagctagt tggtgtggta aaggcgcacc aaggcgacga tccttagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgaa agcctgatcc agcaatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttac ccgggatgat aatgacagta ccgggagaat 420 aagctccggc taactccgtg ccagcagccg cggtaatacg gagggagcta gcgttgttcg 480 gaattactgg gcgtaaagcg cacgtaggcg gctttgtaag ttagaggtga aagcctggag 540 ctcaactcca gaactgcctt taagactgca tcgcttgaat ccaggagagg tgagtggaat 600 tccgagtgta gaggtgaaat tcgtagatat tcggaagaac accagtggcg aaggcggctc 660 actggactgg tattgacgct gaggtgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgataact agctgtccgg ggacttggtc tttgggtggc 780 gcagctaacg cattaagtta tccgcctggg gagtacggcc gcaaggttaa aactcaaatg 840 aattgacggg ggcctgcaca agcggtggag catgtggttt aattcgaagc aacgcgcaga 900 accttaccag cgtttgacat gtccggacga tttccagaga tggatctctt cccttcgggg 960 actggaacac aggtgctgca tggctgtcgt cagctcgtgt cgtgagatgt tgggttaagt 1020 cccgcaacga gcgcaaccct cgcctttagt taccatcatt tagttgggga ctctaaagga 1080 accgccggtg ataagccgga ggaaggtggg gatgacgtca agtcctcatg gcccttacgc 1140 gctgggctac acacgtgcta caatggcggt gacagtgggc agcaaactcg cgagagtgcg 1200 ctaatctcca aaagccgtct cagttcggat tgttctctgc aactcgagag catgaaggcg 1260 gaatcgctag taatcgcgga tcagcatgcc gcggtgaata cgttcccagg ccttgtacac 1320 accgcccgtc acaccatggg agttgggttc acccgaaggc gttgcgctaa ctcgcaagag 1380 aggcaggcga ccacggtggg cttagcgact ggggtgaagt c 1421 <210> 11 <211> 1419 <212> DNA ≪ 213 > Methylobacterium komagatae HKMC-11 <220> <221> rRNA ≪ 222 > (1) .. (1419) <223> 16S rRNA <400> 11 ggctcagagc gaacgctggc ggcaggctta acacatgcaa gtcgagcggg cctttcgggg 60 tcagcggcgg acgggtgagt aacgcgtggg aacgtgcctt ctggttcgga ataactcagg 120 gaaacttgag ctaataccgg atacgccctt ttggggaaag gtttactgcc ggaagatcgg 180 cccgcgtctg attagctagt tggtggggta acggcctacc aaggcgacga tcagtagctg 240 gtctgagagg atgatcagcc acactgggac tgagacacgg cccagactcc tacgggaggc 300 agcagtgggg aatattggac aatgggcgca agcctgatcc agccatgccg cgtgagtgat 360 gaaggcctta gggttgtaaa gctcttttat ccgggacgat aatgacggta ccggaggaat 420 aagccccggc taacttcgtg ccagcagccg cggtaatacg aagggggcta gcgttgctcg 480 gaatcactgg gcgtaaaggg cgcgtaggcg gtcttttaag tcgggggtga aagcctgtgg 540 ctcaaccaca gaattgcctt cgatactggg agacttgagt tcggaagagg ttggtggaac 600 tgcgagtgta gaggtgaaat tcgtagatat tcgcaagaac accggtggcg aaggcggcca 660 actggtccga cactgacgct gaggcgcgaa agcgtgggga gcaaacagga ttagataccc 720 tggtagtcca cgccgtaaac gatgaatgcc agccgttggg gggcttgcct ctcagtggcg 780 cagctaacgc tttgagcatt ccgcctgggg agtacggtcg caagattaaa actcaaagga 840 attgacgggg gcccgcacaa gcggtggagc atgtggttta attcgaagca acgcgcagaa 900 ccttaccatc ctttgacatg gcgtgttacc cagagagatt tggggtccac ttcggtggcg 960 cgcacacagg tgctgcatgg ctgtcgtcag ctcgtgtcgt gagatgttgg gttaagtccc 1020 gcaacgagcg caacccacgt cctcagttgc catcattgag ttgggcactc tggggagact 1080 gccggtgata agccgcgagg aaggtgtgga tgacgtcaag tcctcatggc ccttacggga 1140 tgggctacac acgtgctaca atggcggtga cagtgggaag cgaacccgcg aggggaagca 1200 aatctccaaa agccgtctca gttcggattg cactctgcaa ctcgagtgca tgaaggcgga 1260 atcgctagta atcgtggatc agcatgccac ggtgaatacg ttcccgggcc ttgtacacac 1320 cgcccgtcac accatgggag ttggtcttac ccgacggcgc tgcgccgacc cgcgagggga 1380 gcaggcgacc acggtagggt cagcgactgg ggtgaagtc 1419
Claims (17)
Methyl tumefaciens aqua tikum (Methylobacterium aquaticum) of the air conditioner in odor odorless EVA core does not lead to coatings with biofilm formed by the propagation tumefaciens strain in aerobic conditions to Aqua tikum odorless methyl.
The method of claim 5, wherein in the microorganism methyl tumefaciens aqua tikum (Methylobacterium aquaticum) the growth by the EVA core coated with a formed biofilm is tumefaciens beuraki Atum (Methylobacterium brachiatum) methyl addition to the microorganism, bacterium methyl Solarium flash Tani (Methylobacterium platani), Acinetobacter Jones Needle (Acinetobacter johnsonii), Bacillus Corbett namen sheath (Bacillus vietmanensis), Breda ratio Bacillus inboard car tooth (Brevibacillus invocatus), Day Noko kusu blood Syracuse (Deinococcus ficus), grapefruits Sonia Solid (Leifsonia soli), Pseudomonas nitro Lowry dew sense (Pseudomonas nitroreducens), Sphingomonas aqua subtilis (sphingomonas aquatilis) and methyl tumefaciens coma have additionally one or microorganism or more kinds selected from the group consisting of a condition (Methylobacterium komagatae) In the air conditioning apparatus Odorless EVA core does not cause the birds.
6. The EVA core according to claim 5, wherein the EVA core is made of aluminum, an aluminum alloy, copper, or a copper alloy.
(2) 상기 무취인 메틸로박테리움 아쿠아티쿰 (Methylobacterium aquaticum)균주를 호기성 조건에서 번식시켜 바이오필름을 형성하는 배양 단계;
를 포함하는 공조장치 내 냄새를 유발시키지 않는 무취 에바코어 제조 방법.
(1) comprising: the medium is attached to the aqua tikum tumefaciens strain in odorless of methyl tumefaciens aqua tikum (Methylobacterium aquaticum) with methyl in the coated surface, and
(2) culturing the above-mentioned odorless strain of Methylobacterium aquaticum in aerobic condition to form a biofilm;
Wherein the method comprises the steps of:
11. The method of claim 10, with methyl in the above step (1) tumefaciens aqua tikum tumefaciens beuraki Atum (Methylobacterium brachiatum) methyl addition (Methylobacterium aquaticum), bacterium methyl Solarium flash Tani (Methylobacterium platani), Acinetobacter Jones you (Acinetobacter johnsonii), Bacillus Corbett namen sheath (Bacillus vietmanensis), Breda ratio Bacillus inboard car tooth (Brevibacillus invocatus), Day Noko kusu blood Syracuse (Deinococcus ficus), grapefruits Sonia Solid (Leifsonia soli), Pseudomonas nitro Lowry dew sense (Pseudomonas nitroreducens), Sphingomonas aqua subtilis (sphingomonas aquatilis) and methyl tumefaciens coma the state (air-conditioning, comprising a step of coating the one or microorganism or more kinds selected from the group consisting of Methylobacterium komagatae) Additionally biofilm A method for manufacturing an odorless eva core which does not cause odor in the device.
11. The method of claim 10, wherein the surface of the core is made of aluminum, an aluminum alloy, copper, or a copper alloy, and does not cause odor in the air conditioner.
That is, by coating by breeding tumefaciens strain in aqua tikum odorless methyl of the EVA core of the air conditioner methyl tumefaciens aqua tikum (Methylobacterium aquaticum) under aerobic conditions not causing the odor in the air conditioner odorless biofilm.
The method of claim 13, wherein said odorless biofilm is in the methyl tumefaciens aqua tikum (Methylobacterium aquaticum) in addition tumefaciens beuraki Atum methyl (Methylobacterium brachiatum), bacterium methyl Solarium flash Tani (Methylobacterium platani), Acinetobacter Jones you (Acinetobacter johnsonii), Bacillus Corbett namen sheath (Bacillus vietmanensis), Breda ratio Bacillus inboard car tooth (Brevibacillus invocatus), Day Noko kusu blood Syracuse (Deinococcus ficus), grapefruits Sonia Solid (Leifsonia soli), Pseudomonas nitro Lowry dew sense (Pseudomonas nitroreducens), Sphingomonas aqua subtilis (sphingomonas aquatilis) and methyl with the air conditioning device, comprising a step tumefaciens coma the coating further comprises one or two microorganism or more kinds selected from the group consisting of a condition (Methylobacterium komagatae) Odorless biofilm that does not cause my odor.
Methyl tumefaciens aqua tikum (Methylobacterium aquaticum) of the air-conditioning apparatus that does not cause the smell coated with a biofilm formed by the propagation tumefaciens strain in aerobic conditions to Aqua tikum odorless methyl.
The method of claim 15, wherein the cooling device is the methyl tumefaciens aqua tikum (Methylobacterium aquaticum) in addition tumefaciens beuraki Atum methyl (Methylobacterium brachiatum), tumefaciens flash Tani (Methylobacterium platani) methyl, Acinetobacter Jones Needle ( Acinetobacter johnsonii), Bacillus Corbett namen sheath (Bacillus vietmanensis), Breda ratio Bacillus inboard car tooth (Brevibacillus invocatus), Day Noko kusu blood Syracuse (Deinococcus ficus), grapefruits Sonia Solid (Leifsonia soli), Pseudomonas nitro Lowry dew sense (Pseudomonas nitroreducens ), Sphingomonas aqua subtilis (sphingomonas aquatilis) and the Solarium coma bacterium methyl causing the odor, comprising a step of coating further includes the one or microorganism or more kinds selected from the group consisting of a condition (Methylobacterium komagatae) Do not let the air conditioner.
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