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底物偏好性会因酿酒酵母的二/三肽转运蛋白Ptr2p的第五个跨膜结构域发生突变而改变。

Substrate preference is altered by mutations in the fifth transmembrane domain of Ptr2p, the di/tri-peptide transporter of Saccharomyces cerevisiae.

作者信息

Hauser Melinda, Kauffman Sarah, Naider Fred, Becker Jeffrey M

机构信息

Department of Microbiology, Walters Life Sciences, University of Tennessee, Knoxville, TN 37996, USA.

出版信息

Mol Membr Biol. 2005 May-Jun;22(3):215-27. doi: 10.1080/09687860500093248.

DOI:10.1080/09687860500093248
PMID:16096264
Abstract

The integral membrane protein Ptr2p transports di/tri-peptides into the yeast Saccharomyces cerevisiae. The sequence FYXXINXG (FYING motif) in the 5th transmembrane domain (TM5) is invariably conserved among the members of the PTR (Peptide TRansport) family ranging from yeast to human. To test the role of TM5 in Ptr2p function, Ala-scanning mutagenesis of the 22 residues comprising TM5 was completed. All mutated transporters, with the exception of the Y248A mutant, were expressed as determined by immunoblots. In peptide-dependent growth assays, ten mutants of the non-FYING residues grew as well as wild-type Ptr2p on all twelve different peptides tested. All of the FYING motif mutants, except the non-expressed Y248A, plus seven other mutants in TM5 exhibited differential growth on peptides including Leu-Leu and Met-Met-Met indicating that these mutations conferred substrate preference. In assays measuring direct uptake of the radioactive peptides (3)H-Leu-Leu or (14)C-Met-Met-Met, the F, I and G mutants of the FYING motif did not demonstrate accumulation of these peptides over a ten minute interval. The mutation N252A of the FYING motif, along with L240A, M250A, and L258A, exhibited differential substrate preference for Met-Met-Met over Leu-Leu. Other mutations (T239A, Q241A, N242A, M245A, and A260) resulted in preference for Leu-Leu over Met-Met-Met. These data demonstrate that TM5, in particular its conserved FYING motif, is involved in substrate preference of Ptr2p.

摘要

整合膜蛋白Ptr2p将二肽/三肽转运到酿酒酵母中。在从酵母到人类的PTR(肽转运)家族成员中,第5个跨膜结构域(TM5)中的FYXXINXG序列(FYING基序)始终保持保守。为了测试TM5在Ptr2p功能中的作用,完成了对构成TM5的22个残基的丙氨酸扫描诱变。通过免疫印迹测定,除Y248A突变体外,所有突变的转运蛋白均有表达。在肽依赖性生长试验中,非FYING残基的10个突变体在所有测试的12种不同肽上的生长情况与野生型Ptr2p相同。除了未表达的Y248A外,所有FYING基序突变体以及TM5中的其他7个突变体在包括Leu-Leu和Met-Met-Met的肽上表现出不同的生长情况,表明这些突变赋予了底物偏好性。在测量放射性肽(3)H-Leu-Leu或(14)C-Met-Met-Met直接摄取的试验中,FYING基序的F、I和G突变体在10分钟内未显示出这些肽的积累。FYING基序的N252A突变以及L240A、M250A和L258A对Met-Met-Met的底物偏好性高于Leu-Leu。其他突变(T239A、Q241A、N242A、M245A和A260)导致对Leu-Leu的偏好性高于Met-Met-Met。这些数据表明,TM5,特别是其保守的FYING基序,参与了Ptr2p的底物偏好性。

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