TY - JOUR
KW - leprosy
KW - FtsZ
KW - Cytoskeletal protein
KW - Mycobacterium
KW - Regulation mechanism
KW - anti-TB drug target
AU - Hong W
AU - Deng W
AU - Xie J
AB - FtsZ is a widely distributed major cytoskeletal protein involved in the archaea and bacteria cell division. It is the most critical component in the division machinery and similar to tubulin in structure and function. Four major roles of FtsZ have been characterized: cell elongation, GTPase, cell division, and bacterial cytoskeleton. FtsZ subunits can be assembled into protofilaments. Mycobacteria consist of a large family of medical and environmental important bacteria, such as M. leprae, M. tuberculosis, the pathogen of leprosy, and tuberculosis. Structure, function, and regulation of mycobacteria FtsZ are summarized here, together with the implication of FtsZ as potential novel drug target for anti-tuberculosis therapeutics.
BT - Cell biochemistry and biophysics
C1 - http://www.ncbi.nlm.nih.gov/pubmed/22932926?dopt=Abstract
DA - 2012 Aug 30
DO - 10.1007/s12013-012-9415-5
J2 - Cell Biochem. Biophys.
LA - eng
N2 - FtsZ is a widely distributed major cytoskeletal protein involved in the archaea and bacteria cell division. It is the most critical component in the division machinery and similar to tubulin in structure and function. Four major roles of FtsZ have been characterized: cell elongation, GTPase, cell division, and bacterial cytoskeleton. FtsZ subunits can be assembled into protofilaments. Mycobacteria consist of a large family of medical and environmental important bacteria, such as M. leprae, M. tuberculosis, the pathogen of leprosy, and tuberculosis. Structure, function, and regulation of mycobacteria FtsZ are summarized here, together with the implication of FtsZ as potential novel drug target for anti-tuberculosis therapeutics.
PY - 2012
T2 - Cell biochemistry and biophysics
TI - The Structure, Function, and Regulation of Mycobacterium FtsZ.
SN - 1559-0283
ER -