1,3-beta-glucan synthase component FKS3 (Q04952)

Identification

Name

1,3-beta-glucan synthase component FKS3

Synonyms

1,3-beta-D-glucan-UDP glucosyltransferase
FK506 sensitivity protein 3

Gene Name

FKS3

Enzyme Class

2.4.1.34

Biological Properties

General Function

Involved in 1,3-beta-D-glucan synthase activity

Specific Function

Required for spore wall assembly

Cellular Location

Mitochondrion. Membrane; Multi-pass membrane protein (Potential)

SMPDB Pathways

Starch and sucrose metabolism

PW002481

KEGG Pathways

Starch and sucrose metabolism

ec00500

SMPDB Reactions

1,3-beta-D-Glucan + Uridine 5'-diphosphate ↔ Uridine diphosphate glucose + 1,3-beta-D-Glucan

KEGG Reactions

Not Available

Metabolites

YMDB ID	Name	View
YMDB00212	Uridine diphosphate glucose	Show
YMDB00307	Uridine 5'-diphosphate	Show
YMDB00415	UDP-D-glucose	Show
YMDB16314	1,3-beta-D-Glucan	Show

GO Classification

Component
1,3-beta-glucan synthase complex
cell part
membrane
macromolecular complex
protein complex
Function
transferase activity, transferring glycosyl groups
UDP-glycosyltransferase activity
UDP-glucosyltransferase activity
1,3-beta-glucan synthase activity
catalytic activity
transferase activity
Process
1,3-beta-glucan biosynthetic process
metabolic process
primary metabolic process
carbohydrate metabolic process
polysaccharide metabolic process
glucan metabolic process
cellular glucan metabolic process
beta-glucan metabolic process
1,3-beta-glucan metabolic process

Gene Properties

Chromosome Location

chromosome 13

Locus

YMR306W

Gene Sequence

>5358 bp ATGGATTTTATGAGTCCCAAGTTTTCGCTAACTGACGTTGAGTATCCTGCTTGGTGCCAA GACGATGAAGTCCCAATAACAATGCAGGAAATTAGAGAAATTTTTGTGGAGCTCATGGAT AAGTTTGGCTTCCAGAAATCTTCTATGGAAAATATGTATCAACATTTAATGGGACAGCTG GACTCCAGGGCAAGTCGTACAGGTGCTCAAAATGCTTTAGTATCGCTACATGTTTCATAT ATTGGAGGCGAACACGCAAATTATAGAAAATGGTATTTTGCCGCTCAGCTCGATTTAGAT GAAGAGATCGGGTTTCAAAACATGCGACTACATGGAAAGGCACGCCAAAGAAACGTAAAA ATGGCGAAGAAAAGAGGCGTATCGATAAAGGAACAAATTAAGCAATGGAATGAGAAGGAG CAAGAGTTCATCAATAACCATCCAAAGATCACACTGACTCAAGAACAATTGGAAGATCAG ACAAACTTGAAAAGTGCAGACTACAAATGGAAATTGAAAATGAAAAAATTGACGCCCGAA AATATGATAAGACAGCTGGCCCTTTATTTGCTTTGCTGGGGTGAAGCCAATCAAGTCAGA TTCGCCCCAGAATGCCTTTGCTTTATTTTCAAATGTGCACTTGATTATGATATTAGTACG TCAAGTAGCGAAAAAACGGTGAAATCACCTGAGTATTCATACTTAAATGACGTTATTACT CCCTTATACGAATTCCTAAGGGGCCAAGTATACAAAAAAGACGCAAAGGGGAACTGGAAA CGAAGAGAAAAAGACCACAAGAATATTATTGGTTACGACGACATCAATCAATTATTTTGG TACCCGGAAGGATTTGAACGTATTATTTTAAACAATGGAGAACGATTAGTTGACAAGCCA TTGGAGGAGAGATATCTTTACTTTAAAGACGTTGCATGGTCTAAAGTATTTTATAAGACA TATAGAGAAACCAGAAGTTGGAAGCATTGTTTTACCAATTTCAATAGATTCTGGATTATC CATTTTGCACCGTTTTGGTTCTTCACCACATTTAATTCCCCCACTTTGTACACCAAGAAT TATATACAGTTATTGAATAACCAGCCTACACCCCAAGTTAGACTATCAGTGATTGCCTTT GGAGGCACAATTGCATGTTTAGTTCAAATTTTAGCCACCGTGTTCGAGTGGGGATTTGTA CCTCGAGAATGGCCAGGCGCTCAGCATTTATCGAGTAGAATGATTGGCTTACTTTTTTGT CTTGCAATCAATTTGGGACCTTCCGTGTATGTTCTGGGGTTTTTCGAATGGGATGTTCAT TCAAAATCTGCGTATATCGTGTCCATCGTCCAACTAATCATTGCATTTTTAACCACTTTT TTTTTTGCTGTCAGACCTTTGGGCGGCTTATTTCGTCCATATTTGAATAAAGACAAAAAA CATCGGAGGTACATCTCATCGCAAACCTTTACCGCTTCATTTCCTAAGCTGACAGGACGC AGCAAATGGTTTTCTTATGGGTTATGGGTATTTGTGTATTTGGCGAAATATATTGAGTCC TATTTTTTTTTGACCTTGTCCCTCAGGGACCCCATCAGGGTCCTCTCTATTATGGATTTG TCCAGATGTCAAGGTGAATATTTGTTGGGTCCTATTCTATGTAAATGGCAAGCCAAAATT ACATTAGTTCTCATGCTGCTTTCTGACTTGGGCCTGTTTTTTCTCGACACTTACCTTTGG TACATTATTTGCAACTGTATTTTTTCCATTGTACTGTCATTTTCTCTTGGTACTTCAATT CTCACGCCATGGAAGAATGTATACTCTCGATTGCCAAAAAGGATATATTCCAAAATCCTT GCTACTTCAGAGATGGATGTAAAATTTAAAGCAAAAATACTGATATCGCAGGTTTGGAAT GCCATTGTTATATCAATGTATAGGGAACATCTTCTCTCCATTGAACATTTACAAAGACTC TTGTTTCAGCAAGTTGACTCCTTAATGGGAGACACAAGAACCCTGAAATCGCCTACATTT TTCGTTGCACAAGATGATTCAACGTTCAAGTCAATGGAATTTTTTCCATCAAATTCAGAG GCAAAAAGAAGGATATCCTTTTTTGCCCAATCCCTGGCGACCCCCATTTCAGAACCTGTT CCAGTGGATTGTATGCCAACTTTTACCGTTTTGGTACCCCATTATTCAGAAAAGATTCTG TTGGGCTTGAAGGAAATTATCAGGGAAGAATCTCCTAAAAGTAAAATCACGGTGCTTGAG TATTTGAAGCATCTACACCCTACAGAATGGGAATGTTTTGTTAAGGATACCAAACTACTA AGCATGGAAAAGAGCTTTTTGAAAGAGGCAGAGAGCAGTCATGATGAAGATAGATTGGAA ATTCCGGATGCTCTGTACGATCCAAGGTCTAGCCCGCTTTCTGACCATACTGAGTCCCGG AAGTTGCCCACAGAAGACGATCTTATTAAGGAGAAAATTAATGATTTGCCATTTTCTTAC TTTGGCTTCAACTCATCAGAACCATCGTACACCCTGAGAACAAGAATCTGGGCATCATTG CGGACGCAGACTTTGTACCGAACCCTTTCAGGGTTTATGAACTATTCCAAAGCTATTAAG CTACTGTATCGAATTGAAAACCCCTCTTTAGTTAGCTTGTATCGTGGCAATAATGAAGCA TTGGAGAATGACTTAGAAAATATGGCTAGCAGGAAATTTAGGATGGTTGTTGCTATGCAG AGATATGCAAAATTTAATAAGGATGAAGTGGAGGCAACAGAACTACTTTTAAGAGCCTAT CCAAATATGTTTATATCTTACCTTTTGGAAGAATTAGAGCAAAATGAATCTGAGAAAACG TACTATTCGTGCCTGACTAATGGCTATGCTGAGTTTGACGAAGAAAGTGGATTAAGGAAG CCAATATTCAAAATTCGCCTGTCGGGCAATCCAATACTTGGCGATGGAAAATCGGATAAT CAGAACCATTCTATTATATTTTATCGTGGTGAGTATATTCAGGTGATTGATGCAAACCAA GATAATTATTTGGAGGAATGCCTAAAGATACGGTCTGTTTTAAGTGAGTTCGAAGAGCTT GAGCTTAATCCCACAATCCCATACATTCCTGGCATTGAATATGAAGAAGAACCACCGCCC ATCGCTATTGTTGGTTCAAGAGAGTATATTTTTTCAGAAAATATTGGAGTGTTAGGTGAT ATTGCTGCAGGTAAAGAACAGACTTTTGGAACCTTATTTGCTAGAACGTTGGCTGAAATT GGTGGTAAATTGCACTATGGGCATCCCGATTTTCTCAATGGCATTTTTATGACCACTCGT GGTGGCCTGTCTAAGGCACAAAGAGGATTGCATTTAAACGAGGATATATATGCTGGAATG AACGCAATCTGCCGTGGTGGAAAGATAAAACATAGTGATTACTACCAATGTGGTAAGGGT AGAGATTTGGGATTTGGGTCCATCCTGAATTTCACTACTAAAATAGGTGCAGGTATGGGG GAACAGCTACTATCAAGGGAGTACTATTATTTGGGGACACAACTTCCCATGGATAGATTT TTATCGTTTTTTTATGCACATCCTGGTTTCCATCTGAATAATCTTTTTATTTCCTTTTCG GTTCAACTGTTCTTCGTTCTGCTTTTAAACTTGGGTGCGTTGAACCATGAAATTATAGCC TGCTTTTACGACAAGGATGCACCAATTACAAATCTTGAGACACCCGTTGGTTGTTATAAT ATTCAGCCTGCATTGCATTGGGTATCGATATTCGTACTATCAATCTTCATTGTTTTCTTT ATTGCCTTTGCCCCTTTGCTGATTCAAGAAGTTTTGGAAAAGGGTATTTGGAGAGCAGCT TCAAGGTTCCTACATCATCTTCTTTCAATGGCCCCATTATTTGAAGTATTCGTCTGCCAA GTTTATTCGAATTCTCTATTGATGGACTTGACCTTTGGGGGAGCAAAGTACATATCTACA GGTCGTGGGTTTGCAATAACACGCCTCGATTTTTTTACGCTCTATTCCAGATTTGTTAAT ATATCGATATATTCTGGTTTCCAAGTGTTCTTCATGTTATTATTCGCGATTATTTCCATG TGGCAACCCGCCTTATTATGGTTTTGGATTACAGTCATTTCGATGTGCTTCGCACCTTTT ATTTTCAATCCACATCAGTTCGCATTCATGGATTTCTTCATTGATTATAAAACCTTTATC CACTGGTTATTCTCAGGTAACACGAAATATCAAAAAGAATCGTGGGCAAACTTTGTCAAG AGTTCTCGATCAAGATTTACGGGCTATAAAAGTAAAACTGTAGATGATATTTCCGAAGAT TCAGGCCATGATTCAAAGAAAGCGAGGTTTTGGAACGTCTTCTTTGCAGAACTATTTCTA CCTTTCTGTGTGTTCCTCTTCAACTTCACCGCTTTTTCTTTCATTAATGCACAAACAGGG GTCTCTGACTCAACACCAACTAGCGCTGTTTTCCGTTTGTTGCTCGTAACTTTTTTGCCA ATCTTTCTTAACTCAATAGTGCTTTTTCTATTATTTTGGGTTTCACTTTTTGTGGTTCCT GGATTGTCATATTGTTGTAAAGACGCAGGTGCCGTGATTGCGTTTATTGCACACACTTTC TCGGTTTTGGTCTATCTTTTAGATTTCGAACTGATGTGGTTCTTACAAGGTTGGAACTTT ACCCGTACATTGATACTGCTTATTACGTGCATCAATATGCATCTGATTCTTTTCAAGGTC TTTACGACGATATTCTTGACAAGGGAGTATAAAAACAATAAGGCACATTTGGCATGGTGG AATGGTAAATGGTACAATACGGGCATGGGCTGGTCTATCATTTTACAGCCCATACGAGAA TACTTCGTGAAGATTATGGAATCTAGTTATTTTGCAGCAGATTTCTTTCTTGGTCACTTC CTCTTATTTATACAAACGCCCATAATATTGTTACCATTTATCGATTACTGGCATACAATG GTGCTATTTTGGATGAATCCAAGAAGTATTATCGCGCATAAAAGAATTTTGACTCGAAAG CAGAGAGCATTAAGAAGTAGGATAGTTTCAAAATATTTCTCTCTATATTTTGTGATGCTA GGTGTGCTCCTTTTTATGCTCATCGCGCCATTCTTTGCTGGTGATTTCGTATCTAGTCCG CAAGAATTGCTGGAAGGCACCCTTTTCGAAGGAATCTTCCAACCTAACAACCAAAACAAC AACGATACTGGTCCAAATGCTCCATCGACAATCCTGACTACAACACCAACTTTACCTACC TTTAGGACTGTCGCATAG

Protein Properties

Pfam Domain Function

Glucan_synthase (PF02364 )

Protein Residues

1785

Protein Molecular Weight

207481.0

Protein Theoretical pI

8.17

Signalling Regions

None

Transmembrane Regions

337-357
375-395
415-435
444-464
508-528
547-567
572-592
712-732
1215-1235
1268-1288
1303-1323
1370-1390
1394-1414
1475-1495
1514-1534
1549-1569
1585-1605
1655-1675
1713-1733

Protein Sequence

>1,3-beta-glucan synthase component FKS3 MDFMSPKFSLTDVEYPAWCQDDEVPITMQEIREIFVELMDKFGFQKSSMENMYQHLMGQL DSRASRTGAQNALVSLHVSYIGGEHANYRKWYFAAQLDLDEEIGFQNMRLHGKARQRNVK MAKKRGVSIKEQIKQWNEKEQEFINNHPKITLTQEQLEDQTNLKSADYKWKLKMKKLTPE NMIRQLALYLLCWGEANQVRFAPECLCFIFKCALDYDISTSSSEKTVKSPEYSYLNDVIT PLYEFLRGQVYKKDAKGNWKRREKDHKNIIGYDDINQLFWYPEGFERIILNNGERLVDKP LEERYLYFKDVAWSKVFYKTYRETRSWKHCFTNFNRFWIIHFAPFWFFTTFNSPTLYTKN YIQLLNNQPTPQVRLSVIAFGGTIACLVQILATVFEWGFVPREWPGAQHLSSRMIGLLFC LAINLGPSVYVLGFFEWDVHSKSAYIVSIVQLIIAFLTTFFFAVRPLGGLFRPYLNKDKK HRRYISSQTFTASFPKLTGRSKWFSYGLWVFVYLAKYIESYFFLTLSLRDPIRVLSIMDL SRCQGEYLLGPILCKWQAKITLVLMLLSDLGLFFLDTYLWYIICNCIFSIVLSFSLGTSI LTPWKNVYSRLPKRIYSKILATSEMDVKFKAKILISQVWNAIVISMYREHLLSIEHLQRL LFQQVDSLMGDTRTLKSPTFFVAQDDSTFKSMEFFPSNSEAKRRISFFAQSLATPISEPV PVDCMPTFTVLVPHYSEKILLGLKEIIREESPKSKITVLEYLKHLHPTEWECFVKDTKLL SMEKSFLKEAESSHDEDRLEIPDALYDPRSSPLSDHTESRKLPTEDDLIKEKINDLPFSY FGFNSSEPSYTLRTRIWASLRTQTLYRTLSGFMNYSKAIKLLYRIENPSLVSLYRGNNEA LENDLENMASRKFRMVVAMQRYAKFNKDEVEATELLLRAYPNMFISYLLEELEQNESEKT YYSCLTNGYAEFDEESGLRKPIFKIRLSGNPILGDGKSDNQNHSIIFYRGEYIQVIDANQ DNYLEECLKIRSVLSEFEELELNPTIPYIPGIEYEEEPPPIAIVGSREYIFSENIGVLGD IAAGKEQTFGTLFARTLAEIGGKLHYGHPDFLNGIFMTTRGGLSKAQRGLHLNEDIYAGM NAICRGGKIKHSDYYQCGKGRDLGFGSILNFTTKIGAGMGEQLLSREYYYLGTQLPMDRF LSFFYAHPGFHLNNLFISFSVQLFFVLLLNLGALNHEIIACFYDKDAPITNLETPVGCYN IQPALHWVSIFVLSIFIVFFIAFAPLLIQEVLEKGIWRAASRFLHHLLSMAPLFEVFVCQ VYSNSLLMDLTFGGAKYISTGRGFAITRLDFFTLYSRFVNISIYSGFQVFFMLLFAIISM WQPALLWFWITVISMCFAPFIFNPHQFAFMDFFIDYKTFIHWLFSGNTKYQKESWANFVK SSRSRFTGYKSKTVDDISEDSGHDSKKARFWNVFFAELFLPFCVFLFNFTAFSFINAQTG VSDSTPTSAVFRLLLVTFLPIFLNSIVLFLLFWVSLFVVPGLSYCCKDAGAVIAFIAHTF SVLVYLLDFELMWFLQGWNFTRTLILLITCINMHLILFKVFTTIFLTREYKNNKAHLAWW NGKWYNTGMGWSIILQPIREYFVKIMESSYFAADFFLGHFLLFIQTPIILLPFIDYWHTM VLFWMNPRSIIAHKRILTRKQRALRSRIVSKYFSLYFVMLGVLLFMLIAPFFAGDFVSSP QELLEGTLFEGIFQPNNQNNNDTGPNAPSTILTTTPTLPTFRTVA

References

External Links

Resource	Link
Saccharomyces Genome Database	FKS3
Uniprot ID	Q04952
Uniprot Name	FKS3_YEAST
GenBank Gene ID	Z49212
Genebank Protein ID	798948

General Reference

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
Sickmann, A., Reinders, J., Wagner, Y., Joppich, C., Zahedi, R., Meyer, H. E., Schonfisch, B., Perschil, I., Chacinska, A., Guiard, B., Rehling, P., Pfanner, N., Meisinger, C. (2003). "The proteome of Saccharomyces cerevisiae mitochondria." Proc Natl Acad Sci U S A 100:13207-13212.14576278
Reinders, J., Zahedi, R. P., Pfanner, N., Meisinger, C., Sickmann, A. (2006). "Toward the complete yeast mitochondrial proteome: multidimensional separation techniques for mitochondrial proteomics." J Proteome Res 5:1543-1554.16823961
Ishihara, S., Hirata, A., Nogami, S., Beauvais, A., Latge, J. P., Ohya, Y. (2007). "Homologous subunits of 1,3-beta-glucan synthase are important for spore wall assembly in Saccharomyces cerevisiae." Eukaryot Cell 6:143-156.17158736
Kung, L. A., Tao, S. C., Qian, J., Smith, M. G., Snyder, M., Zhu, H. (2009). "Global analysis of the glycoproteome in Saccharomyces cerevisiae reveals new roles for protein glycosylation in eukaryotes." Mol Syst Biol 5:308.19756047