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2.A.1.48.5 Originally considered to be vacuolar basic amino acid transporter 4, but it my not act on amino acids, but exports drugs such as azoles. May also play a role in vacuolar morphology (Kawano-Kawada et al. 2015).
Accession Number:	Q04602
Protein Name:	Vacuolar basic amino acid transporter 4
Length:	768
Molecular Weight:	85683.00
Species:	Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast) [559292]
Number of TMSs:	14
Location¹ / Topology² / Orientation³:	Vacuole membrane¹ / Multi-pass membrane protein²
Substrate

DIP:	DIP-8662N DIP-8662N
Entrez Gene ID:	851697 851697
Pfam:	PF07690 PF07690
KEGG:	sce:YDR119W sce:YDR119W
Gene Ontology GO:0000329 C:fungal-type vacuole membrane GO:0016021 C:integral to membrane GO:0006865 P:amino acid transport GO:0055085 P:transmembrane transport GO:0000329 C:fungal-type vacuole membrane GO:0016021 C:integral to membrane GO:0006865 P:amino acid transport GO:0055085 P:transmembrane transport
References (18) [1] “The nucleotide sequence of Saccharomyces cerevisiae chromosome IV.” Jacq C.et.al. 9169867 [2] “Global analysis of protein localization in budding yeast.” Huh W.-K.et.al. 14562095 [3] “A proteomics approach to understanding protein ubiquitination.” Peng J.et.al. 12872131 [4] “A family of basic amino acid transporters of the vacuolar membrane from Saccharomyces cerevisiae.” Shimazu M.et.al. 15572352 [5] “A global topology map of the Saccharomyces cerevisiae membrane proteome.” Kim H.et.al. 16847258 [6] “Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae.” Li X.et.al. 17330950 [7] “Proteome-wide identification of in vivo targets of DNA damage checkpoint kinases.” Smolka M.B.et.al. 17563356 [8] “A multidimensional chromatography technology for in-depth phosphoproteome analysis.” Albuquerque C.P.et.al. 18407956 [9] “The yeast vacuolar membrane proteome.” Wiederhold E.et.al. 19001347 [10] “The nucleotide sequence of Saccharomyces cerevisiae chromosome IV.” Jacq C.et.al. 9169867 [11] “Global analysis of protein localization in budding yeast.” Huh W.-K.et.al. 14562095 [12] “A proteomics approach to understanding protein ubiquitination.” Peng J.et.al. 12872131 [13] “A family of basic amino acid transporters of the vacuolar membrane from Saccharomyces cerevisiae.” Shimazu M.et.al. 15572352 [14] “A global topology map of the Saccharomyces cerevisiae membrane proteome.” Kim H.et.al. 16847258 [15] “Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae.” Li X.et.al. 17330950 [16] “Proteome-wide identification of in vivo targets of DNA damage checkpoint kinases.” Smolka M.B.et.al. 17563356 [17] “A multidimensional chromatography technology for in-depth phosphoproteome analysis.” Albuquerque C.P.et.al. 18407956 [18] “The yeast vacuolar membrane proteome.” Wiederhold E.et.al. 19001347

UniProt (Universal Protein Resource)
CDD Search (Conserved Domain Database)

Predict TMSs (Predict number of transmembrane segments)

FASTA formatted sequence

1:	MGKKDRQRKK LREFAKLKNR QRNLRKSVQT LKNEVQREAK VPRTSNQIAL GNDKIEEINE 
61:	NSPLLSAPSK QEEVSIPKAV DIDTIDAQPL HEGPKIDDSP QDEVNSIKGK PADKANEDDL 
121:	KPPSQHEACG NSALQSSITD FSDRSVSPLQ SITSCNTPMS EHELPVSSSN SFERADDMPV 
181:	VQADNQTSSS KSLHIVAPSP EVPVSGDEIT SYGYGSIPQS IGDVENGLNP PYVENTSSDE 
241:	LVHDLTRRRI FSSCMCTYLF FIAMDSSIIL VIASKIASEF HELWRLSLVI SAYLLSNAIG 
301:	QLVFLKLSLI SSVKLLLCIA QFSFILGGYL SWSSAHFWTF IFARCVTGFG GGSLIALKST 
361:	IMNRFSQKND SRYSLSASMI TFAMGVVIGP FMMNLFDSSH GSGWRNAFLI PVPFCLVNAS 
421:	IMLADMYSVK STLYGRPTPT LWKRFKNTLL SPDLYEILTL TLFLLCFVQV TSLDLTGLKN 
481:	NTMIQALLFS VIIVCGILFF LIETSDTYMN SVISMSLQGD KRLIWTMIGI SFCFAALMCI 
541:	IPFGTTYFII VLNLSTLQLA ERLSPFFFSI VLGYFSVSYF WKSKGQNFLL KFVLSGATLL 
601:	LYVALMGVSL NLPVWKQYIC LSLPFLGSSM ILTLLSNLYH EYHEQRKSPI SGSIVYCFGA 
661:	VGGTVGISLG GYVFHKTLIK LMHEKVMPFS KQGYLKKDLL KIIKHATESS DWVHESAPKF 
721:	VFQTLIECYL QACRNVFKLS TLFFTITVVA IFIFNRIHCR SQNCLSLS

2.A.1.48.5
Originally considered to be vacuolar basic amino acid transporter 4, but it my not act on amino acids, but exports drugs such as azoles. May also play a role in vacuolar morphology (Kawano-Kawada et al. 2015).

Cross database links:

Gene Ontology

References (18)

External Searches:

Analyze:

2.A.1.48.5Originally considered to be vacuolar basic amino acid transporter 4, but it my not act on amino acids, but exports drugs such as azoles. May also play a role in vacuolar morphology (Kawano-Kawada et al. 2015).

Cross database links:

Gene Ontology

References (18)

External Searches:

Analyze:

2.A.1.48.5
Originally considered to be vacuolar basic amino acid transporter 4, but it my not act on amino acids, but exports drugs such as azoles. May also play a role in vacuolar morphology (Kawano-Kawada et al. 2015).