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101.
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
102.
Nicole L. van der Weerden Mark R. Bleackley Marilyn A. Anderson 《Cellular and molecular life sciences : CMLS》2013,70(19):3545-3570
Antimicrobial peptides are a vital component of the innate immune system of all eukaryotic organisms and many of these peptides have potent antifungal activity. They have potential application in the control of fungal pathogens that are a serious threat to both human health and food security. Development of antifungal peptides as therapeutics requires an understanding of their mechanism of action on fungal cells. To date, most research on antimicrobial peptides has focused on their activity against bacteria. Several antimicrobial peptides specifically target fungal cells and are not active against bacteria. Others with broader specificity often have different mechanisms of action against bacteria and fungi. This review focuses on the mechanism of action of naturally occurring antifungal peptides from a diverse range of sources including plants, mammals, amphibians, insects, crabs, spiders, and fungi. While antimicrobial peptides were originally proposed to act via membrane permeabilization, the mechanism of antifungal activity for these peptides is generally more complex and often involves entry of the peptide into the cell. 相似文献
103.
104.
Karlsson EK Baranowska I Wade CM Salmon Hillbertz NH Zody MC Anderson N Biagi TM Patterson N Pielberg GR Kulbokas EJ Comstock KE Keller ET Mesirov JP von Euler H Kämpe O Hedhammar A Lander ES Andersson G Andersson L Lindblad-Toh K 《Nature genetics》2007,39(11):1321-1328
With several hundred genetic diseases and an advantageous genome structure, dogs are ideal for mapping genes that cause disease. Here we report the development of a genotyping array with approximately 27,000 SNPs and show that genome-wide association mapping of mendelian traits in dog breeds can be achieved with only approximately 20 dogs. Specifically, we map two traits with mendelian inheritance: the major white spotting (S) locus and the hair ridge in Rhodesian ridgebacks. For both traits, we map the loci to discrete regions of <1 Mb. Fine-mapping of the S locus in two breeds refines the localization to a region of approximately 100 kb contained within the pigmentation-related gene MITF. Complete sequencing of the white and solid haplotypes identifies candidate regulatory mutations in the melanocyte-specific promoter of MITF. Our results show that genome-wide association mapping within dog breeds, followed by fine-mapping across multiple breeds, will be highly efficient and generally applicable to trait mapping, providing insights into canine and human health. 相似文献
105.
Brood movement in response to temperature by Pogonomyrmex salinus (seed-harvester ant) nurse workers was examined in the sagebrush steppe of southeast Idaho. Shading the mound surface of P. salinus colonies at dawn caused a decrease in mound temperature and led to significantly less brood accumulation near the surface. In a related experiment, a lab colony of P. salinus was offered an artificial thermal gradient during the cool/dark portion of the daily cycle. Nurse workers removed brood from the 21° --22° C range to soils with temperatures between 29° C and 36° C. Daily brood relocation by P. salinus nurse workers is a highly flexible behavior, capable of immediate response to temperature, and does not appear to follow a strict endogenous rhythm. 相似文献
106.
Mells GF Floyd JA Morley KI Cordell HJ Franklin CS Shin SY Heneghan MA Neuberger JM Donaldson PT Day DB Ducker SJ Muriithi AW Wheater EF Hammond CJ Dawwas MF;UK PBC Consortium;Wellcome Trust Case Control Consortium Jones DE Peltonen L Alexander GJ Sandford RN Anderson CA 《Nature genetics》2011,43(4):329-332
In addition to the HLA locus, six genetic risk factors for primary biliary cirrhosis (PBC) have been identified in recent genome-wide association studies (GWAS). To identify additional loci, we carried out a GWAS using 1,840 cases from the UK PBC Consortium and 5,163 UK population controls as part of the Wellcome Trust Case Control Consortium 3 (WTCCC3). We followed up 28 loci in an additional UK cohort of 620 PBC cases and 2,514 population controls. We identified 12 new susceptibility loci (at a genome-wide significance level of P < 5 × 10??) and replicated all previously associated loci. We identified three further new loci in a meta-analysis of data from our study and previously published GWAS results. New candidate genes include STAT4, DENND1B, CD80, IL7R, CXCR5, TNFRSF1A, CLEC16A and NFKB1. This study has considerably expanded our knowledge of the genetic architecture of PBC. 相似文献
107.
Genetic determinants of ulcerative colitis include the ECM1 locus and five loci implicated in Crohn's disease 总被引:1,自引:0,他引:1
Fisher SA Tremelling M Anderson CA Gwilliam R Bumpstead S Prescott NJ Nimmo ER Massey D Berzuini C Johnson C Barrett JC Cummings FR Drummond H Lees CW Onnie CM Hanson CE Blaszczyk K Inouye M Ewels P Ravindrarajah R Keniry A Hunt S Carter M Watkins N Ouwehand W Lewis CM Cardon L;Wellcome Trust Case Control Consortium Lobo A Forbes A Sanderson J Jewell DP Mansfield JC Deloukas P Mathew CG Parkes M Satsangi J 《Nature genetics》2008,40(6):710-712
We report results of a nonsynonymous SNP scan for ulcerative colitis and identify a previously unknown susceptibility locus at ECM1. We also show that several risk loci are common to ulcerative colitis and Crohn's disease (IL23R, IL12B, HLA, NKX2-3 and MST1), whereas autophagy genes ATG16L1 and IRGM, along with NOD2 (also known as CARD15), are specific for Crohn's disease. These data provide the first detailed illustration of the genetic relationship between these common inflammatory bowel diseases. 相似文献
108.
Thomas M. A. Shafee Fung T. Lay Thanh Kha Phan Marilyn A. Anderson Mark D. Hulett 《Cellular and molecular life sciences : CMLS》2017,74(4):663-682
Defensins are a well-characterised group of small, disulphide-rich, cationic peptides that are produced by essentially all eukaryotes and are highly diverse in their sequences and structures. Most display broad range antimicrobial activity at low micromolar concentrations, whereas others have other diverse roles, including cell signalling (e.g. immune cell recruitment, self/non-self-recognition), ion channel perturbation, toxic functions, and enzyme inhibition. The defensins consist of two superfamilies, each derived from an independent evolutionary origin, which have subsequently undergone extensive divergent evolution in their sequence, structure and function. Referred to as the cis- and trans-defensin superfamilies, they are classified based on their secondary structure orientation, cysteine motifs and disulphide bond connectivities, tertiary structure similarities and precursor gene sequence. The utility of displaying loops on a stable, compact, disulphide-rich core has been exploited by evolution on multiple occasions. The defensin superfamilies represent a case where the ensuing convergent evolution of sequence, structure and function has been particularly extreme. Here, we discuss the extent, causes and significance of these convergent features, drawing examples from across the eukaryotes. 相似文献
109.
110.
C Anderson 《Nature》1992,359(6392):184-186