Identifiers and Description

Gene Model Identifier

TTHERM_00467500

Standard Name

MBD1 (Fusion of methylthioribulose-phosphate dehydratase and dihydroxy-keto-methylthiopentene dioxygenase)

Aliases

PreTt18652 | 55.m00207 | 3710.m00056

Description

MBD1 methylthioribulose-1-phosphate dehydratase; Fusion of two genes involved in the methionine salvage pathway; methylthioribulose-1-phosphate dehydratase -mtnB; and 1-2-dihydroxy-3-keto-5-methylthiopentene dioxygenase - mtnD

Genome Browser (Macronucleus)



Genome Browser (Micronucleus)

External Links

Gene Ontology Annotations

Molecular Function

Biological Process

Domains

  • ( PF00596 ) Class II Aldolase and Adducin
  • ( PF03079 ) ARD/ARD' family
  • ( PF07883 ) Cupin domain
  • ( TIGR00760 ) L-ribulose-5-phosphate 4-epimerase
  • ( TIGR01086 ) L-fuculose phosphate aldolase
  • ( TIGR03328 ) methylthioribulose-1-phosphate dehydratase

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

Tetrahymena Stock Center

No Data fetched for Tetrahymena Stock Center

Homologs

Source Identifier Score
Tetrahymena borealis EI9_15746.1 9.997093137033517e-262
Description: ARD/ARD family protein (401 aa)
DictyBase DDB_G0284915 4.99918933170902e-62
Description: DDB_G0284915 on chromosome: 4 position 2643291 to 2644175
SGD YJR024C 6.001950283815408e-48
Description: MDE1 5-methylthioribulose-1-phosphate dehydratase; acts in the methionine salvage pathway; potential Smt3p sumoylation substrate; expression downregulated by caspofungin and deletion mutant is caspofungin resistant
WormBase WBGene00013870 6.0018235484001396e-36
Description: Probable methylthioribulose-1-phosphate dehydratase status:Confirmed UniProt:Q23261 protein_id:CAA88977.2

General Information

No. Gene Name(s) Paragraph Text
18 MBD1 MBD1 is a gene fusion of two genes involved in the methionine salvage pathway: methylthioribulose-1-phosphate dehydratase -mtnB; and 1,2-dihydroxy-3-keto-5-methylthiopentene dioxygenase - mtnD. These enzymes catalyze non-consecutive steps in the pathway. Interestingly the gene that codes for the intervening enzyme in the pathway, mtnC, is missing from the genome of Tetrahymena. Complementation tests in yeast were used to show that MBD1 from Tetrahymena is able to do in one step what yeast does in three, since it can rescue yeast knockouts of mtnB, mtnC, or mtnD (Salim, Negritto and Cavalcanti 2009).

Associated Literature

  1. Ref:19851454: Salim HM, Negritto MC, Cavalcanti AR (2009) 1+1 = 3: a fusion of 2 enzymes in the methionine salvage pathway of Tetrahymena thermophila creates a trifunctional enzyme that catalyzes 3 steps in the pathway. PLoS genetics 5(10):e1000701

Sequences

>TTHERM_00467500(coding)
ATGAACGGTTTATCTTCAAATTCTGGTCCTAGAGAAGTCATTTGTGCTCTCTTGAGAAAC
TTTTATACTTAAGGATGGTGCGCTGGTTCAGGTGGTGGTATATCTATTAGAAAAAGCGAC
GATGAAATATATGTTGCACCTTCAGGTGTATAAAAAGAATTGGTTTAACCTGAAGATATC
TATGTTATTAATGTTAATGGAGATGTAGTTGAAAACCCTAAAAATCCAAAATTAAAACCT
TCTGAATGCACTCCTCTTTTTAATGCAGCTTATAAGCTTCGTCGTGCTGGTGCTGTTTTA
CATTCTCATGCTCTTCCTGCAATGCTAGTTACCAAGCTCTTTGGAACTGAATTTTAGACA
ATTGATCATGAAATGATTAAAGGTATTCCTAATCACCATAATACAGAATGGTGTGTCGTC
CCTATCATTGAAAACACTGAAAAGGAATGCGAATTAACAGAACGTTTAACTAATGCAATC
AACGCTTATCCTCGTTCTAATGCTGTCTTAGTTCGTAATCACGGTGTTTATATTTGGGGA
GAAAATTGGGAAAAAGCAAAAATACATGCTGAGTGTTACCATTATTTATTCGAAGCAGTT
GTTGAAATGAAGAAATTAGGTTTAGAAATTCCACGCACTGTTTCAAGCAGTAGCCAATTA
CGTGCTTGGTATATTGATGAAAATGCAATTGGCCAAGATGGTGATATTCGTGAGAGCTTA
CACTATCGCTCATATAAGTGGGTTAATCCAGAATATTTGGCAACAATTGGTGTTGAACAC
TGGAAATTAGACGGAGAAGAGAATAATACTGAACTTGAAAGAGTTTGCAAATAAAGAAAT
TACTCTTCTCGTGATTAAATTAAATGTGGAAATCATTGTGAAAATTACTAACAAATGTTA
TCAAATTTCAGAAAAGAACACATCCATTTAGATGAAGAGATTCGCTATATTATAGGTGGT
AGTGGTTATTTTGATGTCCGTGACCATGAAGATAAATGGATTCGTATCCAAAGTGTTAAA
GGTGATTTAATTGTACTTCCTGAAGGTATATATCACCGCTTTACAACTGATAAAAATGAT
GGAGTTCATGCTATGAGATTATTTAAGGATGAACCTAAATGGACACCTTATAATCGTCCT
TGTGATGAATTGGAAAGCCGTAACAAATATGTAGATTAATTCTTAAAAAAGTTTTAAAAA
TGA


>TTHERM_00467500(gene)
ATGAACGGTTTATCTTCAAATTCTGGTCCTAGAGAAGTCATTTGTGCTCTCTTGAGAAAC
TTTTATACTTAAGGATGGTGCGCTGGTTCAGGTGGTGGTATATCTATTAGAAAAAGCGAC
GATGAAATATATGTTGCACCTTCAGGTGTATAAAAAGAATTGGTTTAACCTGAAGATATC
TATGTTATTAATGTTAATGGAGATGTAGTTGAAAACCCTAAAAATCCAAAATTAAAACCT
TCTGAATGCACTCCTCTTTTTAATGCAGCTTATAAGCTTCGTCGTGCTGGTGCTGTTTTA
CATTCTCATGCTCTTCCTGCAATGCTAGTTACCAAGCTCTTTGGAACTGAATTTTAGACA
ATTGATCATGAAATGATTAAAGGTATTCCTAATCACCATAATACAGAATGGTGTGTCGTC
CCTATCATTGAAAACACTGAAAAGGAATGCGAATTAACAGAACGTTTAACTAATGCAATC
AACGCTTATCCTCGTTCTAATGCTGTCTTAGTTCGTAATCACGGTGTTTATATTTGGGGA
GAAAATTGGGAAAAAGCAAAAATACATGCTGAGTGTTACCATTATTTATTCGAAGCAGTT
GTTGAAATGAAGAAATTAGGTTTAGAAATTCCACGCACTGTTTCAAGCAGTAGCCAATTA
CGTGCTTGGTATATTGATGAAAATGCAATTGGCCAAGATGGTGATATTCGTGAGAGCTTA
CACTATCGCTCATATAAGTGGGTTAATCCAGAATATTTGGCAACAATTGGTGTTGAACAC
TGGAAATTAGACGGAGAAGAGAATAATACTGAACTTGAAAGAGTTTGCAAATAAAGAAAT
TACTCTTCTCGTGATTAAATTAAATGTGGAAATCATTGTGAAAATTACTAACAAATGTTA
TCAAATTTCAGAAAAGAACACATCCATTTAGATGAAGAGATTCGCTATATTATAGGTGGT
AGTGGTTATTTTGATGTCCGTGACCATGAAGATAAATGGATTCGTATCCAAAGTGTTAAA
GGTGATTTAATTGTACTTCCTGAAGGTATATATCACCGCTTTACAACTGATAAAAATGAT
GGAGTTCATGCTATGAGATTATTTAAGGATGAACCTAAATGGACACCTTATAATCGTCCT
TGTGATGAATTGGAAAGCCGTAACAAATATGTAGATTAATTCTTAAAAAAGTTTTAAAAA
TGA


>TTHERM_00467500(protein)
MNGLSSNSGPREVICALLRNFYTQGWCAGSGGGISIRKSDDEIYVAPSGVQKELVQPEDI
YVINVNGDVVENPKNPKLKPSECTPLFNAAYKLRRAGAVLHSHALPAMLVTKLFGTEFQT
IDHEMIKGIPNHHNTEWCVVPIIENTEKECELTERLTNAINAYPRSNAVLVRNHGVYIWG
ENWEKAKIHAECYHYLFEAVVEMKKLGLEIPRTVSSSSQLRAWYIDENAIGQDGDIRESL
HYRSYKWVNPEYLATIGVEHWKLDGEENNTELERVCKQRNYSSRDQIKCGNHCENYQQML
SNFRKEHIHLDEEIRYIIGGSGYFDVRDHEDKWIRIQSVKGDLIVLPEGIYHRFTTDKND
GVHAMRLFKDEPKWTPYNRPCDELESRNKYVDQFLKKFQK