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Noel Edwards Catriona M. H. Anderson Nichola J. Conlon Andrew K. Watson Rebecca J. Hall Timothy R. Cheek T. Martin Embley David T. Thwaites 《Cellular and molecular life sciences : CMLS》2018,75(5):921-938
Amino acid transporters are essential components of prokaryote and eukaryote cells, possess distinct physiological functions, and differ markedly in substrate specificity. Amino acid transporters can be both drug targets and drug transporters (bioavailability, targeting) with many monogenic disorders resulting from dysfunctional membrane transport. The largest collection of amino acid transporters (including the mammalian SLC6, SLC7, SLC32, SLC36, and SLC38 families), across all kingdoms of life, is within the Amino acid-Polyamine-organoCation (APC) superfamily. The LeuT-fold is a paradigm structure for APC superfamily amino acid transporters and carriers of sugars, neurotransmitters, electrolytes, osmolytes, vitamins, micronutrients, signalling molecules, and organic and fatty acids. Each transporter is specific for a unique sub-set of solutes, specificity being determined by how well a substrate fits into each binding pocket. However, the molecular basis of substrate selectivity remains, by and large, elusive. Using an integrated computational and experimental approach, we demonstrate that a single position within the LeuT-fold can play a crucial role in determining substrate specificity in mammalian and arthropod amino acid transporters within the APC superfamily. Systematic mutation of the amino acid residue occupying the equivalent position to LeuT V104 titrates binding pocket space resulting in dramatic changes in substrate selectivity in exemplar APC amino acid transporters including PAT2 (SLC36A2) and SNAT5 (SLC38A5). Our work demonstrates how a single residue/site within an archetypal structural motif can alter substrate affinity and selectivity within this important superfamily of diverse membrane transporters. 相似文献
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Conlon JM 《Cellular and molecular life sciences : CMLS》2011,68(13):2303-2315
Cationic peptides that adopt an amphipathic α-helical conformation in a membrane-mimetic environment are synthesized in the
skins of many frog species. These peptides often display cytolytic activities against bacteria and fungi consistent with the
idea that they play a role in the host’s system of defense against pathogenic microorganisms, but their importance in the
survival strategy of the animal is not clearly understood. Despite the common misconception that antimicrobial peptides are
synthesized in the skins of all anurans, the species distribution is sporadic, suggesting that their production may confer
some evolutionary advantage to the organism but is not necessary for survival. The low potency of many frog skin antimicrobial
peptides is consistent with the hypothesis that cutaneous symbiotic bacteria may provide the major system of defense against
pathogenic microorganisms in the environment with antimicrobial peptides assuming a supplementary role in some species. 相似文献
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The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation 总被引:57,自引:0,他引:57
Chen JF Mandel EM Thomson JM Wu Q Callis TE Hammond SM Conlon FL Wang DZ 《Nature genetics》2006,38(2):228-233
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