Trehalose synthase complex regulatory subunit TSL1 (P38427)

Identification

Name

Trehalose synthase complex regulatory subunit TSL1

Synonyms

Alpha,alpha-trehalose-phosphate synthase [UDP-forming] 123 kDa subunit

Gene Name

TSL1

Enzyme Class

Not Available

Biological Properties

General Function

Carbohydrate transport and metabolism

Specific Function

Regulatory subunit of the trehalose synthase complex that catalyzes the production of trehalose from glucose-6- phosphate and UDP-glucose in a two step process. May stabilize the trehalose synthase complex, and confer sensitivity to physiological concentrations of phosphate and to fructose 6- phosphate

Cellular Location

Cytoplasm

SMPDB Pathways

Starch and sucrose metabolism

PW002481

KEGG Pathways

Starch and sucrose metabolism

ec00500

SMPDB Reactions

Uridine diphosphate glucose + alpha-D-glucose 6 phosphate → Uridine 5'-diphosphate + Trehalose 6-phosphate

Trehalose 6-phosphate + water ↔ Trehalose + phosphate

KEGG Reactions

Not Available

Metabolites

YMDB ID	Name	View
YMDB00008	Trehalose	Show
YMDB00137	Trehalose 6-phosphate	Show
YMDB00212	Uridine diphosphate glucose	Show
YMDB00307	Uridine 5'-diphosphate	Show
YMDB00890	water	Show
YMDB00907	phosphate	Show
YMDB16263	alpha-D-glucose 6 phosphate	Show

GO Classification

Function
catalytic activity
Process
metabolic process
primary metabolic process
carbohydrate metabolic process
oligosaccharide metabolic process
disaccharide metabolic process
trehalose metabolic process
trehalose biosynthetic process

Gene Properties

Chromosome Location

Not Available

Locus

Gene Sequence

>3297 bp ATGGCTCTCATCGTGGCATCTTTGTTTTTGCCCTACCAACCACAATTCGAGCTTGACACC TCTCTCCCTGAGAACTCGCAGGTGGACTCATCTCTCGTGAACATCCAGGCTATGGCCAAT GACCAACAGCAACAACGTGCGCTTTCTAACAACATCTCACAGGAATCATTGGTCGCGCCA GCACCAGAACAAGGTGTCCCCCCAGCAATCTCAAGGAGTGCCACCAGGTCACCCAGTGCT TTCAACCGCGCCTCGTCTACGACAAATACTGCCACTTTAGATGATCTTGTCTCTTCGGAC ATATTCATGGAAAACTTGACTGCGAATGCAACTACCTCACATACGCCAACAAGCAAGACT ATGCTTAAACCCCGGAAAAATGGTTCCGTGGAACGATTCTTCTCCCCTTCTTCCAATATT CCCACGGATCGCATCGCATCGCCAATCCAGCATGAGCATGACTCCGGTTCGAGAATTGCT TCGCCAATCCAACAGCAACAGCAGGACCCCACGACCAACTTATTAAAGAACGTCAACAAG TCATTGTTAGTGCACTCACTGTTGAACAACACCTCACAAACTAGCCTAGAAGGACCCAAC AACCACATTGTTACCCCGAAATCGAGGGCGGGCAACAGGCCTACTTCGGCGGCTACTTCT TTAGTTAATAGGACCAAACAAGGTTCGGCCTCCTCTGGATCTTCTGGGTCTTCTGCGCCA CCTTCCATTAAAAGGATTACGCCCCACTTGACTGCGTCTGCTGCAAAACAGCGTCCCTTA TTGGCTAAACAGCCTTCTAATCTGAAATATTCGGAGTTAGCAGATATTTCGTCGAGTGAG ACGTCTTCGCAGCATAATGAGTCGGACCCGGATGATCTAACTACTGCCCCTGACGAGGAA TATGTTTCTGATTTGGAAATGGATGACGCGAAGCAGGACTACAAGGTTCCAAAGTTCGGC GGCTATTCCAATAAATCTAAACTTAAGAAATATGCGCTGTTAAGGTCATCTCAGGAGCTG TTTAGCCGTCTTCCATGGTCGATCGTTCCCTCTATCAAAGGTAATGGCGCCATGAAGAAC GCCATAAACACTGCAGTCTTGGAGAATATCATTCCGCACCGTCATGTTAAGTGGGTCGGT ACCGTCGGAATCCCAACGGATGAGATTCCGGAAAATATCCTTGCGAACATCTCTGACTCT TTAAAAGACAAGTACGACTCCTATCCTGTCCTTACGGACGACGACACCTTCAAAGCCGCA TACAAAAACTACTGTAAACAAATCTTGTGGCCTACGCTGCATTACCAGATTCCAGACAAT CCGAACTCGAAGGCTTTTGAAGATCACTCTTGGAAGTTCTATAGAAACTTAAACCAAAGG TTTGCGGACGCGATCGTTAAAATCTATAAGAAAGGTGACACCATCTGGATTCATGATTAC CATTTAATGCTGGTTCCGCAGATGGTGAGAGACGTCTTGCCTTTTGCCAAAATAGGATTT ACCTTACATGTCTCGTTCCCCAGTAGTGAAGTGTTTAGGTGTCTGGCTCAGCGTGAGAAG ATCTTAGAAGGCTTGACCGGTGCAGACTTTGTCGGCTTCCAGACGAGGGAGTATGCAAGA CATTTCTTACAGACGTCTAACCGTCTGCTAATGGCGGACGTGGTACATGATGAAGAGCTA AAGTATAACGGCAGAGTCGTTTCTGTGAGGTTCACCCCAGTTGGTATCGACGCCTTTGAT TTGCAATCGCAATTGAAGGATGGAAGTGTCATGCAATGGCGTCAATTGATTCGTGAAAGA TGGCAAGGGAAAAAACTAATTGTGTGTCGTGATCAATTCGATAGAATTAGAGGTATTCAC AAGAAATTGTTGGCTTATGAAAAATTCTTGGTCGAAAATCCGGAATACGTGGAAAAATCG ACTTTAATTCAAATCTGTATTGGAAGCAGTAAGGATGTAGAACTGGAGCGCCAGATCATG ATTGTCGTGGATAGAATCAACTCGCTATCCACCAATATTAGTATTTCTCAACCTGTGGTG TTTTTGCATCAAGATCTAGATTTTTCTCAGTATTTAGCTTTGAGTTCAGAGGCAGATTTG TTCGTAGTCAGCTCTCTAAGGGAAGGTATGAACTTGACATGTCACGAATTTATCGTTTGT TCTGAGGACAAAAATGCTCCCCTACTGTTGTCAGAATTTACTGGTAGTGCATCTTTATTG AATGATGGCGCTATAATAATTAACCCATGGGATACCAAGAACTTCTCACAAGCCATTCTC AAGGGGTTGGAGATGCCATTCGATAAGAGAAGGCCACAGTGGAAGAAATTGATGAAAGAC ATTATCAACAACGACTCTACAAACTGGATCAAGACTTCTTTACAAGATATTCATATTTCG TGGCAATTCAATCAAGAAGGTTCCAAGATCTTCAAATTGAATACAAAAACACTGATGGAA GATTACCAGTCATCTAAAAAGCGTATGTTTGTTTTCAACATTGCTGAACCACCTTCATCG AGAATGATTTCCATACTGAATGACATGACTTCTAAGGGCAATATCGTTTACATCATGAAC TCATTTCCAAAGCCCATTCTGGAAAATCTTTACAGTCGTGTGCAAAACATTGGGTTGATT GCCGAGAATGGTGCATACGTTAGTCTGAACGGTGTATGGTACAACATTGTTGATCAAGTC GATTGGCGTAACGATGTAGCCAAAATTCTCGAGGACAAAGTGGAGAGATTACCTGGCTCG TACTACAAGATAAATGAGTCCATGATCAAGTTCCACACTGAAAATGCGGAAGATCAAGAT CGTGTAGCTAGTGTTATCGGTGATGCCATCACACATATCAATACTGTTTTTGACCACAGA GGTATTCATGCCTACGTTTACAAAAACGTTGTTTCCGTACAACAAGTGGGACTTTCCTTA TCGGCAGCTCAATTTCTTTTCAGATTCTATAATTCTGCTTCGGATCCACTGGATACGAGT TCCGGCCAAATCACAAATATTCAGACACCATCTCAACAAAATCCTTCAGATCAAGAACAA CAACCTCCAGCCTCTCCCACTGTGTCGATGAACCATATTGATTTCGCATGTGTCTCTGGT TCATCGTCTCCTGTGCTTGAACCATTGTTCAAATTGGTCAATGATGAAGCAAGTGAAGGG CAAGTAAAAGCCGGACACGCCATTGTTTATGGTGATGCTACTTCTACTTATGCCAAAGAA CATGTAAATGGGTTAAACGAACTTTTCACGATCATTTCAAGAATCATTGAAGATTAA

Protein Properties

Pfam Domain Function

Glyco_transf_20 (PF00982 )
Trehalose_PPase (PF02358 )

Protein Residues

1098

Protein Molecular Weight

123017.0

Protein Theoretical pI

6.61

Signalling Regions

None

Transmembrane Regions

None

Protein Sequence

>Trehalose synthase complex regulatory subunit TSL1 MALIVASLFLPYQPQFELDTSLPENSQVDSSLVNIQAMANDQQQQRALSNNISQESLVAP APEQGVPPAISRSATRSPSAFNRASSTTNTATLDDLVSSDIFMENLTANATTSHTPTSKT MLKPRKNGSVERFFSPSSNIPTDRIASPIQHEHDSGSRIASPIQQQQQDPTTNLLKNVNK SLLVHSLLNNTSQTSLEGPNNHIVTPKSRAGNRPTSAATSLVNRTKQGSASSGSSGSSAP PSIKRITPHLTASAAKQRPLLAKQPSNLKYSELADISSSETSSQHNESDPDDLTTAPDEE YVSDLEMDDAKQDYKVPKFGGYSNKSKLKKYALLRSSQELFSRLPWSIVPSIKGNGAMKN AINTAVLENIIPHRHVKWVGTVGIPTDEIPENILANISDSLKDKYDSYPVLTDDDTFKAA YKNYCKQILWPTLHYQIPDNPNSKAFEDHSWKFYRNLNQRFADAIVKIYKKGDTIWIHDY HLMLVPQMVRDVLPFAKIGFTLHVSFPSSEVFRCLAQREKILEGLTGADFVGFQTREYAR HFLQTSNRLLMADVVHDEELKYNGRVVSVRFTPVGIDAFDLQSQLKDGSVMQWRQLIRER WQGKKLIVCRDQFDRIRGIHKKLLAYEKFLVENPEYVEKSTLIQICIGSSKDVELERQIM IVVDRINSLSTNISISQPVVFLHQDLDFSQYLALSSEADLFVVSSLREGMNLTCHEFIVC SEDKNAPLLLSEFTGSASLLNDGAIIINPWDTKNFSQAILKGLEMPFDKRRPQWKKLMKD IINNDSTNWIKTSLQDIHISWQFNQEGSKIFKLNTKTLMEDYQSSKKRMFVFNIAEPPSS RMISILNDMTSKGNIVYIMNSFPKPILENLYSRVQNIGLIAENGAYVSLNGVWYNIVDQV DWRNDVAKILEDKVERLPGSYYKINESMIKFHTENAEDQDRVASVIGDAITHINTVFDHR GIHAYVYKNVVSVQQVGLSLSAAQFLFRFYNSASDPLDTSSGQITNIQTPSQQNPSDQEQ QPPASPTVSMNHIDFACVSGSSSPVLEPLFKLVNDEASEGQVKAGHAIVYGDATSTYAKE HVNGLNELFTIISRIIED

References

External Links

Resource	Link
Saccharomyces Genome Database	TSL1
Uniprot ID	P38427
Uniprot Name	TSL1_YEAST
GenBank Gene ID	X72788
Genebank Protein ID	288437

General Reference

Vuorio, O. E., Kalkkinen, N., Londesborough, J. (1993). "Cloning of two related genes encoding the 56-kDa and 123-kDa subunits of trehalose synthase from the yeast Saccharomyces cerevisiae." Eur J Biochem 216:849-861.8404905
Bowman, S., Churcher, C., Badcock, K., Brown, D., Chillingworth, T., Connor, R., Dedman, K., Devlin, K., Gentles, S., Hamlin, N., Hunt, S., Jagels, K., Lye, G., Moule, S., Odell, C., Pearson, D., Rajandream, M., Rice, P., Skelton, J., Walsh, S., Whitehead, S., Barrell, B. (1997). "The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII." Nature 387:90-93.9169872
Reinders, A., Burckert, N., Hohmann, S., Thevelein, J. M., Boller, T., Wiemken, A., De Virgilio, C. (1997). "Structural analysis of the subunits of the trehalose-6-phosphate synthase/phosphatase complex in Saccharomyces cerevisiae and their function during heat shock." Mol Microbiol 24:687-695.9194697
Bell, W., Sun, W., Hohmann, S., Wera, S., Reinders, A., De Virgilio, C., Wiemken, A., Thevelein, J. M. (1998). "Composition and functional analysis of the Saccharomyces cerevisiae trehalose synthase complex." J Biol Chem 273:33311-33319.9837904
Ficarro, S. B., McCleland, M. L., Stukenberg, P. T., Burke, D. J., Ross, M. M., Shabanowitz, J., Hunt, D. F., White, F. M. (2002). "Phosphoproteome analysis by mass spectrometry and its application to Saccharomyces cerevisiae." Nat Biotechnol 20:301-305.11875433
Huh, W. K., Falvo, J. V., Gerke, L. C., Carroll, A. S., Howson, R. W., Weissman, J. S., O'Shea, E. K. (2003). "Global analysis of protein localization in budding yeast." Nature 425:686-691.14562095
Ghaemmaghami, S., Huh, W. K., Bower, K., Howson, R. W., Belle, A., Dephoure, N., O'Shea, E. K., Weissman, J. S. (2003). "Global analysis of protein expression in yeast." Nature 425:737-741.14562106
Gruhler, A., Olsen, J. V., Mohammed, S., Mortensen, P., Faergeman, N. J., Mann, M., Jensen, O. N. (2005). "Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway." Mol Cell Proteomics 4:310-327.15665377
Chi, A., Huttenhower, C., Geer, L. Y., Coon, J. J., Syka, J. E., Bai, D. L., Shabanowitz, J., Burke, D. J., Troyanskaya, O. G., Hunt, D. F. (2007). "Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry." Proc Natl Acad Sci U S A 104:2193-2198.17287358
Smolka, M. B., Albuquerque, C. P., Chen, S. H., Zhou, H. (2007). "Proteome-wide identification of in vivo targets of DNA damage checkpoint kinases." Proc Natl Acad Sci U S A 104:10364-10369.17563356
Albuquerque, C. P., Smolka, M. B., Payne, S. H., Bafna, V., Eng, J., Zhou, H. (2008). "A multidimensional chromatography technology for in-depth phosphoproteome analysis." Mol Cell Proteomics 7:1389-1396.18407956