Transport systems comprise roughly 10% of all proteins in a cell, playing critical roles in many processes. Improving and expanding their classification is ...
complexity, challenges and benefits of comparing two transporter ...
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Jan 21, 2015 · As part of a long-term endeavor to improve consistency between the two classification systems, we have compared transporter annotations in the ...
Jan 21, 2015 · Transport systems comprise roughly 10% of all proteins in a cell, playing critical roles in many processes. Improving and expanding their ...
The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam ; Expansion of the APC superfamily of secondary ...
Transport systems comprise roughly 10% of all proteins in a cell, playing critical roles in many processes. Improving and expanding their classification is an ...
The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam. *Databases, Protein. Pfam. Transport.
TCDB 2015. DataBase. The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam. *Databases, Protein. Pfam.
Nov 5, 2015 · ... The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam. Brief Bioinform. 2015 doi ...
The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam · Zachary D. ChiangÅke Västermark +4 authors. M ...
The complexity, challenges and benefits of comparing two transporter classification systems in TCDB and Pfam. (2015). Brief Bioinform. 16(5):865-72. DOI ...