34283 NADB_Rossmann superfamily
Thalassiosira pseudonana

Chromosome Product Transcript Start End Strand Short Name
34283 chr_5 NADB_Rossmann superfamily 1477458 1478714 + NADB_Rossmann superfamily
NCBI ID Ensembl Genomes exon ID
7448143 Thaps34283.1
Expression Profile Conditional Changes Cluster Dendrogram
Thaps_hclust_0028
Normalized Mean Residue
Thaps_bicluster_0121
0.36
(bd1857) DnaJ
0.9042
hypothetical protein
0.8899
PI-PLCc_GDPD_SF superfamily
0.8883
hypothetical protein
0.8878
hypothetical protein
0.8874
2A0303
0.8795
hypothetical protein
0.8781
hypothetical protein
0.8721
hypothetical protein
0.8698
hypothetical protein
0.8695
Name CD Accession Definition Superfamily Bitscore E-Value From - To Hit Type PSSM ID
NADB_Rossmann superfamily Rossmann-fold NAD(P)(+)-binding proteins; A large family of proteins that share a Rossmann-fold NAD... - 240.589 2.55E-76 81 - 371 superfamily 263925
FabG Dehydrogenases with different specificities (related to short-chain alcohol dehydrogenases) [... - 115.685 8.37E-30 77 - 340 multi-dom 223959
T. pseudonana P. tricornutum P. tricornutum DiatomCyc F. cylindrus Pseudo-nitzschia multiseries E. huxleyi C. reinhardtii A. thaliana P. sojae
Not available Not available 192550 164643 Not available Not available AT4G23430.2 555144
KEGG description KEGG Pathway
Not available Not available
GO:0008152 GO:0016491 GO:0000252 GO:0000253 GO:0004448 GO:0004495 GO:0008875 GO:0016229 GO:0016616 GO:0018451 GO:0018452 GO:0018453 GO:0048258 -

metabolic process

Details: 
The chemical reactions and pathways, including anabolism and catabolism, by which living organisms transform chemical substances. Metabolic processes typically transform small molecules, but also include macromolecular processes such as DNA repair and replication, and protein synthesis and degradation.
GO Category: 
BP

oxidoreductase activity

Details: 
Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced.
GO Category: 
MF

C-3 sterol dehydrogenase (C-4 sterol decarboxylase) activity

Details: 
Catalysis of the reaction: 3-beta-hydroxy-4-beta-methyl-5-alpha-cholesta-8,24-dien-4-alpha-carboxylate + NAD(P)+ = 4-alpha-methyl-5-alpha-cholesta-8,24-dien-3-one + CO2 + NAD(P)H.
GO Category: 
MF

3-keto sterol reductase activity

Details: 
Catalysis of the reaction: a 3-beta-hydroxyl sterol + NADP+ = a 3-keto sterol + NADPH + H(+).
GO Category: 
MF

isocitrate dehydrogenase activity

Details: 
Catalysis of the reaction: isocitrate + acceptor = 2-oxoglutarate + CO2 + reduced acceptor.
GO Category: 
MF

mevaldate reductase activity

Details: 
Catalysis of the reaction: (R)-mevalonate + acceptor = mevaldate + reduced acceptor.
GO Category: 
MF

gluconate dehydrogenase activity

Details: 
Catalysis of the reaction: D-gluconate + NADP+ = dehydro-D-gluconate + NADPH + H+.
GO Category: 
MF

steroid dehydrogenase activity

Details: 
Catalysis of an oxidation-reduction (redox) reaction in which one substrate is a sterol derivative.
GO Category: 
MF

oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor

Details: 
Catalysis of an oxidation-reduction (redox) reaction in which a CH-OH group acts as a hydrogen or electron donor and reduces NAD+ or NADP.
GO Category: 
MF

epoxide dehydrogenase activity

Details: 
Catalysis of the reaction: ethene oxide + NAD+ + CoA-SH = NADH + H+ + acetyl-CoA.
GO Category: 
MF

5-exo-hydroxycamphor dehydrogenase activity

Details: 
Catalysis of the reaction: 5-exo-hydroxycamphor + NAD+ = NADH + H+ + 2,5-diketocamphane.
GO Category: 
MF

2-hydroxytetrahydrofuran dehydrogenase activity

Details: 
Catalysis of the reaction: 2-hydroxytetrahydrofuran = 2 H+ + 2 e- + butyrolactone.
GO Category: 
MF

3-ketoglucose-reductase activity

Details: 
Catalysis of the reaction: NADP+ + 3-dehydro-alpha-D-glucose = NADPH + alpha-D-glucose.
GO Category: 
MF
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