ライフサイエンスコーパス: amino acid permease

1 sion of BAP2, the gene encoding the branched-amino acid permease.

2 ns generated vesicles containing the general amino acid permease.

3 whereas many of the underexpressed genes are amino acid permeases.

4 T8 impair the activities of a broader set of amino acid permeases.

5 Arabidopsis mutant that is deficient in the amino acid permease 1 (AAP1, At1g58360) and resistant to

6 activity of the nutrient scavenging general amino acid permease 1.

7 of chromosome condensation-like protein, and amino acid permease 6.

8 ransporters of amino acids, i.e. the general amino acid permease (Aap) and the branched-chain amino a

9 A general L-amino acid permease (Aap) from the ABC transporter famil

10 Amino acid permeases (AAPs) in the plasma membrane (PM)

11 D40-repeat protein required for targeting of amino acid permeases (AAPs) to the plasma membrane, bypa

12 amino acid analogues, have very low general amino acid permease activity and do not accumulate treha

13 The yeast YCC5 gene encodes a putative amino acid permease and is homologous to GNP1 (encoding

14 ginine uptake, decreased expression of three amino acid permeases, and low intracellular levels of fo

15 , and a portion localizes to the Golgi where amino acid permeases are modified and sorted.

16 tion factor that regulates the expression of amino acid permeases, are impaired in multiple aspects o

17 e and utilization were altered: the aromatic amino acid permease (aroP) and tryptophanyl-tRNA synthet

18 dentified, including many SNARE proteins and amino acid permeases as well as many other participants

19 o acid permease (Aap) and the branched-chain amino acid permease (Bra) of Rhizobium leguminosarum and

20 For instance, the general amino acid permease Gap1 transports all amino acids, whe

21 ote the intracellular sorting of the general amino acid permease Gap1.

22 ng of ubiquitinated proteins such as general amino acid permease (Gap1) from the trans-Golgi network

23 Intracellular sorting of the general amino acid permease (Gap1p) in Saccharomyces cerevisiae

24 n either ammonia or urea medium, the general amino acid permease (Gap1p) is transported from the Golg

25 that a plasma membrane protein, the general amino acid permease (Gap1p), is enriched approximately t

26 ew is the nitrogen regulation of the general amino acid permease, Gap1p, and the proline permease, Pu

27 y blocks transport of the nitrogen-regulated amino acid permease, Gap1p, from the Golgi to the plasma

28 The high capacity general amino acid permease, Gap1p, in Saccharomyces cerevisiae

29 The general amino acid permease, Gap1p, of Saccharomyces cerevisiae

30 livery to the plasma membrane of the general amino acid permease, Gap1p, of Saccharomyces cerevisiae

31 Intracellular trafficking of the general amino acid permease, Gap1p, of Saccharomyces cerevisiae

32 The Saccharomyces cerevisiae general amino-acid permease, Gap1p, is a model for membrane prot

33 eracts genetically with Stp1, a regulator of amino acid permease genes and, with Sfp1, a key regulato

34 nylalanine codon, highly conserved among the amino acid permease genes, to a serine codon in a region

35 a targeting or processing signal for certain amino acid permeases in yeast.

36 of GAP1, the structural gene for the general amino acid permease, in glutamine-grown cells in respons

37 l intracellular sorting of Gap1, the general amino acid permease, in response to nutrients.

38 Gap1, the yeast general amino acid permease, is a convenient model for studying

39 The inclusion of amino-acid permease molecules into the complex depended

40 Gap1p, the general amino acid permease of Saccharomyces cerevisiae, is regu

41 rt systems: PA1971 (braZ) for branched-chain amino acids permease; PA2042 for a putative sodium:serin

42 Additional copies of the pea amino acid permease PsAAP1 were introduced into the pea

43 pression of Can1p, the plasma membrane basic amino acid permease, results in increased cell volume an

44 rate-transport elicited endocytosis of other amino acid permeases similarly involves unmasking of a c

45 In S. cerevisiae lacking SHR3, amino acid permeases specifically accumulate in membrane

46 lating translation, ribosome biogenesis, and amino acid permease stability.

47 Polypeptide sequence similarity to amino acid permeases suggests that AUX1 mediates the tra

48 lular amino acids and activate expression of amino acid permeases through the SPS-sensing pathway, wh

49 biosynthesis (HOM3, HOM2, HOM6, THR1, THR4), amino acid permease trafficking (LST4, LST7), and threon

50 , were identified that are also required for amino acid permease transport from the Golgi to the cell

51 of GAP1, the structural gene for the general amino acid permease, which contains the sites required f

52 An amino acid permease, which is normally positioned on the

53 GAP1 encodes the general amino acid permease, which transports amino acids across

54 Genes for putative amino acid permeases with broad specificity for amino ac