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PR00469

Identifier
PNDRDTASEII  [View Relations]  [View Alignment]  
Accession
PR00469
No. of Motifs
10
Creation Date
12-FEB-1996  (UPDATE 30-JUN-1999)
Title
Pyridine nucleotide disulphide reductase class-II signature
Database References
PRINTS; PR00368 FADPNR
PROSITE; PS00573 PYRIDINE_REDOX_2
INTERPRO; IPR000103
UMBBD; e0429; e0056
PDB; 1TRB
SCOP; 1TRB
CATH; 1TRB
Literature References
1. KUYRIYAN, J., KRISHNA, T.S.R., WONG, L., GUENTHER, B., PAHLER, A.,
WILLIAMS, C.H. AND MODEL, P.
Convergent evolution of similar function in two structurally divergent
enzymes.
NATURE 352 172-174 (1991).
 
2. RUSSEL M. AND MODEL P.
Sequence of thioredoxin reductase from Escherichia coli. Relationship to 
other flavoprotein disulfide oxidoreductases.
J.BIOL.CHEM. 263 9015-9019 (1988).
 
3. COHEN, G., ARGAMAN, A., SCHREIBER, R., MISLOVATI, M. AND AHARONOWITZ, Y.
The thioredoxin system of Penicillium chrysogenum and its possible role in 
penicillin biosynthesis.
J.BACTERIOL. 176 973-984 (1994).
 
4. TARTAGLIA, L.A., STORZ, G., BRODSKY, M.H., LAI, A. AND AMES B.N.
Alkyl hydroperoxide reductase from Salmonella typhimurium. Sequence and
homology to thioredoxin reductase and other flavoprotein disulfide
oxidoreductases.
J.BIOL.CHEM. 265 10535-10540 (1990).
 
5. XU, X.M., KOYAMA, N., CUI, M., YAMAGISHI, A., NOSOH, Y. AND OSHIMA, T.
Nucleotide sequence of the gene encoding NADH dehydrogenase from an
alkalophile, Bacillus sp. strain YN-1.
J.BIOCHEM.(TOKYO) 109 678-683 (1991).
 
6. MATHIEU, I., MEYER, J. AND MOULIS, J.M.
Cloning, sequencing and expression in Escherichia coli of the
rubredoxin gene from Clostridium pasteurianum.
BIOCHEM.J. 285 255-262 (1992).
 
7. WAKSMAN, G., KRISHNA, T.S.R., WILLIAMS, C.H. AND KURIYAN, J.
Crystal structure of Escherichia coli thioredoxin reductase refined at 2A
resolution. Implications for a large conformational change during catalysis.
J.MOL.BIOL. 236 800-816 (1994).
 
8. MCKIE, J.H. AND DOUGLAS, K.T.
Evidence for gene duplication forming similar binding folds for NAD(P)H
and FAD in pyridine nucleotide-dependent flavoenzymes.
FEBS LETT. 279 5-8 (1991).
 
9. NIIMURA, Y., OHNISHI, K., YARITA, Y., HIDAKA, M., MASAKI, H., 
UCHIMURA, T., SUZUKI, H., KOZAKI, M. AND UOZUMI, H.
A flavoprotein functional as NADH oxidase from Amphibacillus xylanus Ep01:
Purification and characterization of the enzyme and structural analysis of 
its gene.
J.BACTERIOL. 175 7945-7950 (1993). 
 
10. HIGUCHI, M., SHIMADA, M., MATSUMOTO, J., YAMAMOTO, Y., RHAMAN, A.
AND KAMIO, Y.
Molecular cloning and sequence analysis of the gene encoding the H2O2-
forming NADH oxidase from Streptococcus mutans.
BIOSCI.BIOTECHNOL.BIOCHEMISTRY 58 1603-1607 (1994).
 
11. BRUCHHAUS, I. AND TANNICH, E. 
Identification of an Entamoeba histolytica gene encoding a protein 
homologous to prokaryotic disulphide oxidoreductases.
MOL.BIOCHEM.PARASITOL. 70 187-191 (1995).

Documentation
The pyridine nucleotide-disulphide reductases (PNDR) use the isoalloxazine
ring of FAD to shuttle reducing equivalents from NAD(P)H to a Cys residue
that is usually a part of a redox-active disulphide bridge. In a second
step, the reduced disulphide reduces the substrate. On the basis of sequence
and structural similarities [1], PNDR can be categorised into 2 groups.
Class II includes: prokaryotic and eukaryotic thioredoxin reductases [2,3];
bacterial alkyl hydroperoxide reductases [4]; bacterial NADH:dehydrogenases
[5]; a probable oxidoreductase encoded in the Clostridium pasteurianum
rubredoxin operon [6]; and yeast hypothetical protein YHR106w. 
 
The 3D structure of E.coli thioredoxin reductase (TR) has been solved [1,7].
The protein exists as a homodimer, with 3 domains per monomer, which
correspond to the FAD-binding, NAD(P)H-binding and central domains of
glutathione reductase (GR) (cf. signature PNDRDTASEI). However, TR lacks
the domain that provides the dimer interface in GR, and forms a completely 
different dimeric structure. The relative orientation of these domains is
very different in the 2 enzymes: when the FAD-binding domains of TR and GR
are superimposed, the NADPH-binding domain of one is rotated by 66 degrees
with respect to the other. The FAD- and NAD(P)H-binding domains have a 
similar doubly-wound alpha/beta fold, suggesting they evolved by gene
duplication [8]. While in GR the redox active disulphide is located in
the FAD-binding domain, in TR it lies in the NADPH-binding domain. This
suggests that the enzymes diverged from an ancestral nucleotide-binding
protein and acquired their disulphide reductase activities independently [1]. 
 
PNDRDTASEII is a 10-element fingerprint that provides a signature for the 
PNDR class II family. The fingerprint was derived from an initial alignment
of 14 sequences: motifs 1 and 6 contain 3 conserved Gly residues and
correspond to the ADP moiety binding site for FAD and NAD(P) respectively
(cf. motifs 1 and 3 of signature FADPNR); motif 5 contains 2 Cys residues 
involved in the redox-active disulphide bond (motifs 5 and 6 include the
region encoded by PROSITE pattern PYRIDINE_REDOX_2 (PS000573)); and motif 9
encodes the binding site for the FAD flavin moiety (cf. motif 5 of FADPNR).
Three iterations on OWL27.0 were required to reach convergence, at which
point a true set comprising 24 sequences was identified, including the
hydrogen peroxide-forming NADH oxidases from Amphibacillus xylanus (A49911)
[9] and Streptococcus mutans (JC2311) [10], as well as the Entamoeba
histolytica gEh-34 gene product (EHDO34) [11]. Numerous partial matches
were also found, most of which are members of the PNDR family.
 
An update on SPTR37_9f identified a true set of 41 sequences, and 151
partial matches.
Summary Information
  41 codes involving 10 elements
4 codes involving 9 elements
1 codes involving 8 elements
0 codes involving 7 elements
0 codes involving 6 elements
1 codes involving 5 elements
7 codes involving 4 elements
28 codes involving 3 elements
104 codes involving 2 elements
Composite Feature Index
1041414141414141414141
94414444344
81101111011
70000000000
60000000000
51101110000
45003052274
318121101475233
26223351141315603
12345678910
True Positives
AHPF_ECOLI    AHPF_SALTY    DHNA_BACSP    DHNA_BACSU    
O22229 O26804 O28718 O50134
O53592 O54079 O66266 O82864
O84101 Q06369 Q24834 Q54469
Q58931 R34K_CLOPA TRB1_ARATH TRXB_BACSU
TRXB_BORBU TRXB_BUCAP TRXB_CLOLI TRXB_COXBU
TRXB_ECOLI TRXB_EUBAC TRXB_HAEIN TRXB_LISMO
TRXB_MYCGE TRXB_MYCLE TRXB_MYCPN TRXB_MYCSM
TRXB_MYCTU TRXB_NEUCR TRXB_PENCH TRXB_SCHPO
TRXB_STRCL TRXB_STRCO TRXB_TREPA TRXB_YEAST
YHQ6_YEAST
True Positive Partials
Codes involving 9 elements
AHPF_STAAU O06465 O22751 O66790
Codes involving 8 elements
TRXB_HELPY
Codes involving 5 elements
O54535
Codes involving 4 elements
O27685 O29311 O33474 O34399
O59547 O83717 P96219
Codes involving 3 elements
DLD1_BACST DLD1_BACSU DLDH_ALCEU DLDH_ECOLI
DLDH_PEA GLSN_MEDSA NADO_THEBR O05268
O08340 O29030 O29576 O29985
O31475 O50286 O58606 O59368
O67845 O81413 O84925 O86255
P74746 P77907 P95457 Q40360
Q41219 Q53125 Q59917 YPDA_BACSU
Codes involving 2 elements
AEGA_ECOLI BAIH_EUBSP BEDA_PSEPU DHSA_BACSU
DLD2_BACSU DLD2_PSEPU DLD3_PSEPU DLDH_AZOVI
DLDH_CANFA DLDH_HAEIN DLDH_HUMAN DLDH_MYCPN
DLDH_PIG DLDH_PSEFL DLDH_TRYBB DLDH_YEAST
DLDH_ZYMMO ETFD_HUMAN FRDA_ECOLI FRDA_PROVU
GIDA_AQUAE GLTD_AZOBR GLTD_ECOLI GSHR_BURCE
NADB_ECOLI NAOX_ENTFA NAPE_ENTFA NASD_BACSU
NIR_NEUCR O01412 O05139 O06595
O08749 O17953 O18480 O24679
O27434 O28894 O29595 O29852
O29966 O32886 O32907 O33997
O34324 O50311 O51670 O52473
O52933 O53355 O58308 O58643
O59088 O61143 O65946 O66715
O66724 O66945 O67007 O69798
O83891 O84561 O84596 O85778
O85962 O93364 P70933 P72259
P72300 P72762 P90597 P90598
P90599 P91171 P95034 P95160
P95200 P95596 Q02733 Q14131
Q19655 Q40977 Q42711 Q43497
Q46811 Q48410 Q48419 Q50756
Q50994 Q51225 Q51973 Q52386
Q54453 Q56267 Q57031 Q59160
Q59299 Q59822 Q60151 SYA_ARATH
THCD_RHOSO TODA_PSEPU TYTR_TRYCR Y033_METJA
Sequence Titles
AHPF_ECOLI  Alkyl hydroperoxide reductase subunit F - Escherichia coli (strain K12)  
AHPF_SALTY Alkyl hydroperoxide reductase subunit F - Salmonella typhimurium
DHNA_BACSP NADH DEHYDROGENASE (EC 1.6.99.3) (ALKYL HYDROPEROXIDE REDUCTASE) - BACILLUS SP. (STRAIN YN-1).
DHNA_BACSU NADH dehydrogenase - Bacillus subtilis
O22229 PUTATIVE THIOREDOXIN REDUCTASE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O26804 THIOREDOXIN REDUCTASE - METHANOBACTERIUM THERMOAUTOTROPHICUM.
O28718 THIOREDOXIN REDUCTASE (TRXB) - ARCHAEOGLOBUS FULGIDUS.
O50134 336AA LONG HYPOTHETICAL THIOREDOXIN REDUCTASE - PYROCOCCUS HORIKOSHII.
O53592 THIOREDOXIN REDUCTASE (EC 1.6.4.5) (TR) - MYCOBACTERIUM TUBERCULOSIS.
O54079 THIOREDOXIN REDUCTASE (EC 1.6.4.5) - STAPHYLOCOCCUS AUREUS.
O66266 NADH OXIDASE/ALKYL HYDROPEROXIDASE REDUCTASE - STREPTOCOCCUS MUTANS.
O82864 ALKYL HYDROPEROXIDE REDUCTASE SUBUNIT F (EC 1.6.4.-) - PSEUDOMONAS PUTIDA.
O84101 THIOREDOXIN REDUCTASE - CHLAMYDIA TRACHOMATIS.
Q06369 NADH OXIDASE - AMPHIBACILLUS XYLANUS.
Q24834 DISULPHIDE OXIDOREDUCTASE - ENTAMOEBA HISTOLYTICA.
Q54469 NADH OXIDASE - STREPTOCOCCUS MUTANS.
Q58931 HYPOTHETICAL PROTEIN MJ1536 - METHANOCOCCUS JANNASCHII.
R34K_CLOPA 34.2 kDa protein in rubredoxin operon - Clostridium pasteurianum
TRB1_ARATH THIOREDOXIN REDUCTASE 1 (EC 1.6.4.5) (NADPH-DEPENDENT THIOREDOXIN REDUCTASE 1) (NTR 1) - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
TRXB_BACSU Thioredoxin reductase - Bacillus subtilis
TRXB_BORBU Thioredoxin reductase - Borrelia burgdorferi
TRXB_BUCAP Thioredoxin reductase - Buchnera aphidicola subsp. Schizaphis graminum
TRXB_CLOLI Thioredoxin reductase - Clostridium litorale
TRXB_COXBU Thioredoxin reductase - Coxiella burnetii
TRXB_ECOLI Thioredoxin reductase - Escherichia coli (strain K12)
TRXB_EUBAC Thioredoxin reductase - Eubacterium acidaminophilum
TRXB_HAEIN Thioredoxin reductase - Haemophilus influenzae
TRXB_LISMO Thioredoxin reductase - Listeria monocytogenes
TRXB_MYCGE Thioredoxin reductase - Mycoplasma genitalium
TRXB_MYCLE Bifunctional thioredoxin reductase/thioredoxin - Mycobacterium leprae
TRXB_MYCPN Thioredoxin reductase - Mycoplasma pneumoniae
TRXB_MYCSM Thioredoxin reductase - Mycobacterium smegmatis
TRXB_MYCTU Thioredoxin reductase - Mycobacterium tuberculosis
TRXB_NEUCR Thioredoxin reductase - Neurospora crassa
TRXB_PENCH Thioredoxin reductase - Penicillium chrysogenum
TRXB_SCHPO Thioredoxin reductase - Schizosaccharomyces pombe
TRXB_STRCL Thioredoxin reductase - Streptomyces clavuligerus
TRXB_STRCO Thioredoxin reductase - Streptomyces coelicolor
TRXB_TREPA Thioredoxin reductase - Treponema pallidum
TRXB_YEAST THIOREDOXIN REDUCTASE 1 (EC 1.6.4.5) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
YHQ6_YEAST THIOREDOXIN REDUCTASE 2, MITOCHONDRIAL PRECURSOR (EC 1.6.4.5) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).

AHPF_STAAU ALKYL HYDROPEROXIDE REDUCTASE SUBUNIT F (EC 1.6.4.-) - STAPHYLOCOCCUS AUREUS.
O06465 ALKYL HYDROPEROXIDE REDUCTASE SUBUNIT F (EC 1.6.4.-) - XANTHOMONAS CAMPESTRIS (PV. PHASEOLI).
O22751 NADPH THIOREDOXIN REDUCTASE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O66790 THIOREDOXIN REDUCTASE - AQUIFEX AEOLICUS.

TRXB_HELPY Thioredoxin reductase - Helicobacter pylori

O54535 SIMILAR TO MYCOBACTERIUM LEPRAE THIOREDOXIN REDUCTASE - HALOBACTERIUM SP.

O27685 DIHYDROLIPOAMIDE DEHYDROGENASE - METHANOBACTERIUM THERMOAUTOTROPHICUM.
O29311 NADH OXIDASE (NOXA-4) - ARCHAEOGLOBUS FULGIDUS.
O33474 GLUTAMATE SYNTHASE - PYROCOCCUS SP.
O34399 GLUTAMATE SYNTHASE (EC 1.4.1.13) (GLUTAMATE SYNTHASE (NADPH)) (GOGAT) - BACILLUS SUBTILIS.
O59547 476AA LONG HYPOTHETICAL GLUTAMATE SYNTHASE SMALL CHAIN - PYROCOCCUS HORIKOSHII.
O83717 GLUTAMATE SYNTHASE (GLTA) - TREPONEMA PALLIDUM.
P96219 HYPOTHETICAL 53.5 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.

DLD1_BACST DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE COMPLEX) - BACILLUS STEAROTHERMOPHILUS.
DLD1_BACSU DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE COMPLEX) (S COMPLEX, 50 KD SUBUNIT) - BACILLUS SUBTILIS.
DLDH_ALCEU DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF 2- OXOGLUTARATE DEHYDROGENASE COMPLEX) - ALCALIGENES EUTROPHUS.
DLDH_ECOLI Dihydrolipoyl dehydrogenase - Escherichia coli (strain K12)
DLDH_PEA Dihydrolipoyl dehydrogenase, mitochondrial - Pisum sativum
GLSN_MEDSA GLUTAMATE SYNTHASE [NADH] PRECURSOR (EC 1.4.1.14) (NADH-GOGAT) - MEDICAGO SATIVA (ALFALFA).
NADO_THEBR NADH oxidase - Thermoanaerobacter brockii
O05268 THIOREDOXINE REDUCTASE - BACILLUS SUBTILIS.
O08340 GLUTAMATE SYNTHASE (EC 1.4.1.13) (GLUTAMATE SYNTHASE (NADPH)) (GOGAT) - RHODOBACTER SPHAEROIDES (RHODOPSEUDOMONAS SPHAEROIDES).
O29030 HETERODISULFIDE REDUCTASE, SUBUNIT A/METHYLVIOLOGEN REDUCING HYDROGENASE, SUBUNIT DELTA - ARCHAEOGLOBUS FULGIDUS.
O29576 SUCCINATE DEHYDROGENASE, FLAVOPROTEIN SUBUNIT A (SDHA) - ARCHAEOGLOBUS FULGIDUS.
O29985 NADH OXIDASE (NOXA-1) - ARCHAEOGLOBUS FULGIDUS.
O31475 YCGT PROTEIN - BACILLUS SUBTILIS.
O50286 LIPOAMIDE DEHYDROGENASE - VIBRIO PARAHAEMOLYTICUS.
O58606 472AA LONG HYPOTHETICAL GLUTAMATE SYNTHASE SMALL CHAIN - PYROCOCCUS HORIKOSHII.
O59368 482AA LONG HYPOTHETICAL D-NOPALINE DEHYDROGENASE - PYROCOCCUS HORIKOSHII.
O67845 GLUTAMATE SYNTHASE SMALL SUBUNIT GLTD - AQUIFEX AEOLICUS.
O81413 FERRIC LEGHEMOGLOBIN REDUCTASE-2 PRECURSOR - GLYCINE MAX (SOYBEAN).
O84925 NADH OXIDASE - STREPTOCOCCUS PNEUMONIAE.
O86255 THIOREDOXIN REDUCTASE - KLEBSIELLA OXYTOCA.
P74746 HYPOTHETICAL 36.0 KD PROTEIN - SYNECHOCYSTIS SP. (STRAIN PCC 6803).
P77907 FORMATE DEHYDROGENASE BETA SUBUNIT (EC 1.2.1.43) (FORMATE DEHYDROGENASE (NADP+)) - MOORELLA THERMOACETICA (CLOSTRIDIUM THERMOACETICUM).
P95457 GLUTAMATE SYNTHASE SMALL SUBUNIT - PSEUDOMONAS AERUGINOSA.
Q40360 NADH-DEPENDENT GLUTAMATE SYNTHASE - MEDICAGO SATIVA (ALFALFA).
Q41219 FERRIC LEGHEMOGLOBIN REDUCTASE - GLYCINE MAX (SOYBEAN).
Q53125 BIPHENYL DIOXYGENASE - RHODOCOCCUS SP.
Q59917 NADH OXIDASE (EC 1.6.99.3) (NOXASE) - TREPONEMA HYODYSENTERIAE (SERPULINA HYODYSENTERIAE).
YPDA_BACSU HYPOTHETICAL 36.3 KD PROTEIN IN RECQ-CMK INTERGENIC REGION - BACILLUS SUBTILIS.

AEGA_ECOLI AEGA PROTEIN - ESCHERICHIA COLI.
BAIH_EUBSP NADH-dependent flavin oxidoreductase - Eubacterium sp. (strain VPI 12708)
BEDA_PSEPU Benzene 1,2-dioxygenase system ferredoxin--NAD(+) reductase subunit - Pseudomonas putida
DHSA_BACSU SUCCINATE DEHYDROGENASE FLAVOPROTEIN SUBUNIT (EC 1.3.99.1) - BACILLUS SUBTILIS.
DLD2_BACSU DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF BRANCHED- CHAIN ALPHA-KETO ACID DEHYDROGENASE COMPLEX) (LPD-VAL) - BACILLUS SUBTILIS.
DLD2_PSEPU DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF 2- OXOGLUTARATE DEHYDROGENASE COMPLEX) (LPD-GLC) (GLYCINE OXIDATION SYSTEM L-FACTOR) - PSEUDOMONAS PUTIDA.
DLD3_PSEPU DIHYDROLIPOAMIDE DEHYDROGENASE 3 (EC 1.8.1.4) (LPD-3) - PSEUDOMONAS PUTIDA.
DLDH_AZOVI Dihydrolipoyl dehydrogenase - Azotobacter vinelandii
DLDH_CANFA Dihydrolipoyl dehydrogenase, mitochondrial - Canis familiaris
DLDH_HAEIN Dihydrolipoyl dehydrogenase - Haemophilus influenzae
DLDH_HUMAN Dihydrolipoyl dehydrogenase, mitochondrial - Homo sapiens
DLDH_MYCPN Dihydrolipoyl dehydrogenase - Mycoplasma pneumoniae
DLDH_PIG Dihydrolipoyl dehydrogenase, mitochondrial - Sus scrofa
DLDH_PSEFL Dihydrolipoyl dehydrogenase - Pseudomonas fluorescens
DLDH_TRYBB Dihydrolipoyl dehydrogenase - Trypanosoma brucei brucei
DLDH_YEAST Dihydrolipoyl dehydrogenase, mitochondrial - Saccharomyces cerevisiae
DLDH_ZYMMO Dihydrolipoyl dehydrogenase - Zymomonas mobilis
ETFD_HUMAN ELECTRON TRANSFER FLAVOPROTEIN-UBIQUINONE OXIDOREDUCTASE PRECURSOR (EC 1.5.5.1) (ETF-QO) (ETF-UBIQUINONE OXIDOREDUCTASE) (ETF DEHYDROGENASE) (ELECTRON-TRANSFERRING-FLAVOPROTEIN DEHYDROGENASE) - HOMO SAPIENS (HUMAN).
FRDA_ECOLI Fumarate reductase flavoprotein subunit - Escherichia coli (strain K12)
FRDA_PROVU Fumarate reductase flavoprotein subunit - Proteus vulgaris
GIDA_AQUAE GLUCOSE INHIBITED DIVISION PROTEIN A - AQUIFEX AEOLICUS.
GLTD_AZOBR Glutamate synthase [NADPH] small chain - Azospirillum brasilense
GLTD_ECOLI GLUTAMATE SYNTHASE [NADPH] SMALL CHAIN (EC 1.4.1.13) (GLUTAMATE SYNTHASE BETA SUBUNIT) (NADPH-GOGAT) (GLTS BETA CHAIN) - ESCHERICHIA COLI.
GSHR_BURCE Glutathione reductase - Burkholderia cepacia
NADB_ECOLI L-aspartate oxidase - Escherichia coli (strain K12)
NAOX_ENTFA NADH oxidase - Enterococcus faecalis
NAPE_ENTFA NADH peroxidase - Enterococcus faecalis
NASD_BACSU Nitrite reductase [NAD(P)H] - Bacillus subtilis
NIR_NEUCR Nitrite reductase [NAD(P)H] - Neurospora crassa
O01412 GLUTATHIONE REDUCTASE - ONCHOCERCA VOLVULUS.
O05139 SOLUBLE PYRIDINE NUCLEOTIDE TRANSHYDROGENASE - PSEUDOMONAS FLUORESCENS.
O06595 NADB - MYCOBACTERIUM TUBERCULOSIS.
O08749 DIHYDROLIPOAMIDE DEHYDROGENASE, MITOCHONDRIAL PRECURSOR (EC 1.8.1.4) - MUS MUSCULUS (MOUSE).
O17953 LLC1.3 PROTEIN - CAENORHABDITIS ELEGANS.
O18480 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3) - MANDUCA SEXTA (TOBACCO HAWKMOTH) (TOBACCO HORNWORM).
O24679 TECA4 - BURKHOLDERIA SP.
O27434 HETERODISULFIDE REDUCTASE, SUBUNIT A - METHANOBACTERIUM THERMOAUTOTROPHICUM.
O28894 HETERODISULFIDE REDUCTASE, SUBUNIT A (HDRA-2) - ARCHAEOGLOBUS FULGIDUS.
O29595 HETERODISULFIDE REDUCTASE, SUBUNIT A/METHYLVIOLOGEN REDUCING HYDROGENASE, SUBUNIT DELTA - ARCHAEOGLOBUS FULGIDUS.
O29852 NADH OXIDASE (NOXA-2) - ARCHAEOGLOBUS FULGIDUS.
O29966 SARCOSINE OXIDASE, SUBUNIT ALPHA (SOXA) - ARCHAEOGLOBUS FULGIDUS.
O32886 POSSIBLE FERREDOXIN - MYCOBACTERIUM LEPRAE.
O32907 DEHYDROGENASE - MYCOBACTERIUM LEPRAE.
O33997 ADENYLYLSULFATE REDUCTASE ALPHA SUBUNIT - CHROMATIUM VINOSUM.
O34324 LIPOAMIDE DEHYDROGENASE COMPONENT OF PYRUVATE DEHYDROGENASE COMPLEX (EC 1.8.1.4) (E3) (DIHYDROLIPOAMIDE DEHYDROGENASE) - BACILLUS SUBTILIS.
O50311 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE AND 2-OXOGLUTARATE DEHYDROGENASES COMPLEXES) - CHLOROBIUM VIBRIOFORME.
O51670 NADH OXIDASE, WATER-FORMING (NOX) - BORRELIA BURGDORFERI (LYME DISEASE SPIROCHETE).
O52473 NADH DEHYDROGENASE - MYCOBACTERIUM SMEGMATIS.
O52933 2-ENOATE REDUCTASE (EC 1.3.1.31) - CLOSTRIDIUM TYROBUTYRICUM.
O53355 DIHYDROLIPOAMIDE DEHYDROGENASE - MYCOBACTERIUM TUBERCULOSIS.
O58308 445AA LONG HYPOTHETICAL NADH OXIDASE - PYROCOCCUS HORIKOSHII.
O58643 397AA LONG HYPOTHETICAL NADH OXIDASE - PYROCOCCUS HORIKOSHII.
O59088 493AA LONG HYPOTHETICAL PROTEIN - PYROCOCCUS HORIKOSHII.
O61143 NAD(P)H-DEPENDENT GLUTAMATE SYNTHASE - PLASMODIUM FALCIPARUM.
O65946 REDA2 PROTEIN - SPHINGOMONAS SP.
O66715 HETERODISULFIDE REDUCTASE SUBUNIT A - AQUIFEX AEOLICUS.
O66724 HYPOTHETICAL 21.8 KD PROTEIN - AQUIFEX AEOLICUS.
O66945 DIHYDROLIPOAMIDE DEHYDROGENASE - AQUIFEX AEOLICUS.
O67007 NADH OXIDASE - AQUIFEX AEOLICUS.
O69798 REDUCTASE - RALSTONIA SP.
O83891 NADH OXIDASE - TREPONEMA PALLIDUM.
O84561 LIPOAMIDE DEHYDROGENASE - CHLAMYDIA TRACHOMATIS.
O84596 SUCCINATE DEHYDROGENASE - CHLAMYDIA TRACHOMATIS.
O85778 PUTATIVE FERREDOXIN REDUCTASE MOCF - RHIZOBIUM LEGUMINOSARUM (BIOVAR VICIAE).
O85962 FERREDOXIN REDUCTASE SUBUNIT AROMATIC OXYGENASE - SPHINGOMONAS AROMATICIVORANS.
O93364 L-AMINO ACID OXIDASE PRECURSOR (EC 1.4.3.2) (LAO) - CROTALUS ADAMANTEUS (EASTERN DIAMONDBACK RATTLESNAKE).
P70933 SUCCINATE DEHYDROGENASE SUBUNIT A - PAENIBACILLUS MACERANS (BACILLUS MACERANS).
P72259 ISOPROPYLBENZENE 2,3-DIOXYGENASE - RHODOCOCCUS ERYTHROPOLIS.
P72300 OOXA - RHIZOBIUM MELILOTI.
P72762 NADH-GLUTAMATE SYNTHASE SMALL SUBUNIT - SYNECHOCYSTIS SP. (STRAIN PCC 6803).
P90597 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) - TRYPANOSOMA CRUZI.
P90598 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) - TRYPANOSOMA CRUZI.
P90599 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) - TRYPANOSOMA CRUZI.
P91171 SIMILAR TO FLAVIN-CONTAINING MONOOXYGENASES - CAENORHABDITIS ELEGANS.
P95034 HYPOTHETICAL 43.0 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
P95160 HYPOTHETICAL 49.6 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
P95200 HYPOTHETICAL 50.4 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
P95596 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE AND 2-OXOGLUTARATE DEHYDROGENASES COMPLEXES) - RHODOBACTER CAPSULATUS (RHODOPSEUDOMONAS CAPSULATA).
Q02733 LPB14P - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
Q14131 DIHYDROLIPOAMIDE DEHYDROGENASE, MITOCHONDRIAL PRECURSOR (EC 1.8.1.4) - HOMO SAPIENS (HUMAN).
Q19655 SIMILAR TO OXIDOREDUCTASE - CAENORHABDITIS ELEGANS.
Q40977 MONODEHYDROASCORBATE REDUCTASE - PISUM SATIVUM (GARDEN PEA).
Q42711 MONODEHYDROASCORBATE REDUCTASE (EC 1.6.5.4) - CUCUMIS SATIVUS (CUCUMBER).
Q43497 ASCORBATE FREE RADICAL REDUCTASE - LYCOPERSICON ESCULENTUM (TOMATO).
Q46811 WAS O492P AND O826P BEFORE SPLICE - ESCHERICHIA COLI.
Q48410 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE AND 2-OXOGLUTARATE DEHYDROGENASES COMPLEXES) - KLEBSIELLA PNEUMONIAE.
Q48419 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE AND 2-OXOGLUTARATE DEHYDROGENASES COMPLEXES) - KLEBSIELLA PNEUMONIAE.
Q50756 HETERODISULFIDE REDUCTASE, SUBUNIT HDRA (EC 1.97.1-.) (GLYA GENE) / COENZYME-M-7-MERCAPTOHEPTANOYLTHREONINE-PHOSPHATE-HETERODISULFIDE HYDROGENASE (EC 1.12.99.2) (HETERODISULFIDE REDUCTASE FLAVOPROTEIN SUBUNIT) - METHANOBACTERIUM THERMOAUTOTROPHICUM (STRAIN MARBURG / DSM 2133).
Q50994 SUCAB-LPD OPERON, SUCB AND LPD GENES, COMPLETE CDS, SUCA GENE PARTIAL CDS AND IS-150-LIKE ELEMENT 3' END - NEISSERIA GONORRHOEAE.
Q51225 OUTER MEMBRANE PROTEIN P64K OR PM-6 - NEISSERIA MENINGITIDIS.
Q51973 P-CUMATE DIOXYGENASE FERREDOXIN REDUCTASE SUBUNIT - PSEUDOMONAS PUTIDA.
Q52386 CHLOROBENZENE DIOXYGENASE, NADH-FERREDOXIN REDUCTASE - PSEUDOMONAS SP.
Q54453 H2O-FORMING NADH OXIDASE - STREPTOCOCCUS MUTANS.
Q56267 GLUTAMATE SYNTHASE SMALL SUBUNIT GLTD - THIOBACILLUS FERROOXIDANS.
Q57031 FERREDOXIN REDUCTASE BPH - RHODOCOCCUS GLOBERULUS, RHODOCOCCUS SP., AND RHODOCOCCUS ERYTHROPOLIS.
Q59160 OOXA (EC 1.5.1.19) (D-NOPALINE DEHYDROGENASE) (D-NOPALINE SYNTHASE) (NOPALINE SYNTHASE) - AGROBACTERIUM TUMEFACIENS.
Q59299 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (LIPOAMIDE REDUCTASE [NADH]) (E3 COMPONENT OF ALPHA-KETOACID DEHYDROGENASE COMPLEXES) (LIPOYL DEHYDROGENASE) (DIHYDROLIPOYL DEHYDROGENASE) (DIAPHORASE) - CLOSTRIDIUM MAGNUM.
Q59822 DIHYDROLIPOAMIDE DEHYDROGENASE (EC 1.8.1.4) (E3 COMPONENT OF PYRUVATE COMPLEX) (MEMBRANE-BOUND RIBOSOME PROTEIN COMPLEX 50 KD SUBUNIT) - STAPHYLOCOCCUS AUREUS.
Q60151 GLUTATHIONE REDUCTASE (EC 1.6.4.2) (GLUTATHIONE REDUCTASE (NADPH)) - STREPTOCOCCUS THERMOPHILUS.
SYA_ARATH ALANYL-TRNA SYNTHETASE, MITOCHONDRIAL PRECURSOR (EC 6.1.1.7) (ALANINE--TRNA LIGASE) (ALARS) - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
THCD_RHOSO RHODOCOXIN REDUCTASE (EC 1.18.1.-) - RHODOCOCCUS SP. (STRAIN NI86/21).
TODA_PSEPU Toluene 1,2-dioxygenase system ferredoxin--NAD(+) reductase component - Pseudomonas putida
TYTR_TRYCR Trypanothione reductase - Trypanosoma cruzi
Y033_METJA Uncharacterized FAD-dependent oxidoreductase MJ0033 - Methanocaldococcus jannaschii
Scan History
OWL27_0    3  600  NSINGLE    
SPTR37_9f 3 230 NSINGLE
Initial Motifs
Motif 1  width=23
Element Seqn Id St Int Rpt
DVLVIGGGPAGASSAIYAARKGI A49911 210 210 -
KVVIIGSGPAAHTAAIYLARAEL NEUCYS9 4 4 -
KVTIIGSGPAAHTAAIYLARAEI A55468 5 5 -
RLCIVGSGPAAHTAAIYAARAEL S44027 10 10 -
DVLVIGGGPAGNSAAIYAARKGV JC2311 210 210 -
KVVIIGSGAGAHTAAIYLSRAEL TRXB_PENCH 4 4 -
NVIIIGSGPAGYTAALYTARASL TRXB_STRCL 5 5 -
KLLILGSGPAGYTAAIYAARANL TRXB_HAEIN 8 8 -
EVIVIGSGPAGYTAALYAARAQL TRXB_MYCLE 13 13 -
KLLILGSGPAGYTAAVYAARANL TRXB_ECOLI 7 7 -
DVLVVGGGPAGASSAIYAARKGI DHNA_BACSP 210 210 -
SLIILGSGPAGYTDAIYVARANL TRXB_COXBU 8 8 -
DVLIVGSGPAGAAAAVYSARKGI AHPF_SALTY 214 214 -
DLVIIGAGPAGLTAAIYAIRAKL R34K_CLOPA 8 8 -

Motif 2 width=16
Element Seqn Id St Int Rpt
GGQLTTTTDVENFPGF S44027 48 15 -
GGQLTTTTEIENFPGF NEUCYS9 42 15 -
GGQLTTTTEIENFPGF A55468 43 15 -
GGQVMETVGIENMIGT JC2311 242 9 -
GGQVMDTLGIENFIGT A49911 242 9 -
GGQIRETYTVENFPGF R34K_CLOPA 41 10 -
GGQVLDTVDIENYISV AHPF_SALTY 246 9 -
GGQLMTTTDVANWPGE TRXB_COXBU 41 10 -
GGQIMDTLSIENFISQ DHNA_BACSP 242 9 -
GGQLTTTTDVENFPGF TRXB_PENCH 42 15 -
GGALMNTTDVENFPGF TRXB_STRCL 39 11 -
GGQLTTTDEIENWPGD TRXB_HAEIN 41 10 -
GGALMTTTEVENYPGF TRXB_MYCLE 46 10 -
GGQLTTTTEVENWPGD TRXB_ECOLI 40 10 -

Motif 3 width=11
Element Seqn Id St Int Rpt
GPLLMERMHEH TRXB_ECOLI 61 5 -
GVELTDKFRKQ S44027 69 5 -
GPQLMAQVEEH JC2311 262 4 -
GSELMDRMREQ A55468 64 5 -
GQELMDKMKAQ NEUCYS9 63 5 -
GPKLISEIEQH A49911 262 4 -
GADLADKMEEH R34K_CLOPA 61 4 -
GQKLAGALKAH AHPF_SALTY 266 4 -
GPKLLERMQKH TRXB_COXBU 62 5 -
GPKLAASLEEH DHNA_BACSP 262 4 -
GAELMDNMRAQ TRXB_PENCH 63 5 -
GPDLMDNMRAQ TRXB_STRCL 60 5 -
GSGLMQRMLQH TRXB_HAEIN 62 5 -
GPELMDDMREQ TRXB_MYCLE 67 5 -

Motif 4 width=9
Element Seqn Id St Int Rpt
DAIILATGA A55468 113 38 -
DAVILAIGA S44027 114 34 -
DSIILATGA NEUCYS9 111 37 -
KTAVLALGA JC2311 308 35 -
KTIILATGA A49911 308 35 -
DALIIATGA TRXB_ECOLI 106 34 -
RAVILAMGT TRXB_MYCLE 113 35 -
DALIIATGA TRXB_HAEIN 107 34 -
KAVIVTTGS TRXB_STRCL 106 35 -
DAVIIATGA TRXB_PENCH 115 41 -
KSVILSTGA DHNA_BACSP 308 35 -
DALIIATGA TRXB_COXBU 108 35 -
RSIIIATGA AHPF_SALTY 316 39 -
KALIIATGA R34K_CLOPA 107 35 -

Motif 5 width=13
Element Seqn Id St Int Rpt
WQNGISACAVCDG TRXB_PENCH 137 13 -
SGRGVSWCATCDG TRXB_STRCL 128 13 -
KGRGVSACATCDG TRXB_ECOLI 128 13 -
LGRGVSACATCDG TRXB_MYCLE 135 13 -
KGRGVSACATCDG TRXB_HAEIN 129 13 -
KNKGVAYCTHCDA A49911 330 13 -
FNKGVTYCPHCDG JC2311 330 13 -
WQKGISACAVCDG A55468 135 13 -
WQNGISACAVCDG NEUCYS9 133 13 -
WNRGISACAVCDG S44027 140 17 -
HGKVIHYCELCDG R34K_CLOPA 129 13 -
RTKGVTYCPHCDG AHPF_SALTY 338 13 -
MGKGVSACATCDG TRXB_COXBU 130 13 -
KNKGVAYCPHCDG DHNA_BACSP 330 13 -

Motif 6 width=25
Element Seqn Id St Int Rpt
FRNKHLVVIGGGDSAAEEAMYLTKY NEUCYS9 150 4 -
FRNKPLAVIGGGDSAMEEANFLTKY S44027 157 4 -
FRGQDIAVIGGGDSAMEEALFLTRF TRXB_MYCLE 150 2 -
YRNQKVAVIGGGNTAVEEALYLSNI TRXB_ECOLI 143 2 -
YRNKPVGVIGGGNTAVEEALYLANI TRXB_HAEIN 144 2 -
FRNKPLYVIGGGDSAAEEAMFLAKY TRXB_PENCH 154 4 -
YQGKDLVVVGGGNSAVEAAIFLTKY R34K_CLOPA 144 2 -
FKGKRVAVIGGGNSGVEAAIDLAGI AHPF_SALTY 353 2 -
YRAKKVAVVGGGNTSVEEALYLSHI TRXB_COXBU 145 2 -
FEGKDVAVIGGGNSGVEAAIDLAGI DHNA_BACSP 345 2 -
FKDQDIVVVGGGDTAMEEATFLSRF TRXB_STRCL 143 2 -
FEGKHVAVVGGGNSGIESALDLAGI A49911 345 2 -
FTDKKVAVIGGGNSGLEAAIDLAGL JC2311 345 2 -
FRNKPLAVIGGGDSACEEAQFLTKY A55468 152 4 -

Motif 7 width=17
Element Seqn Id St Int Rpt
KIDVIWNSSVVEAYGDG S44027 209 27 -
NVDVILNAQTTEITGDE A49911 397 27 -
NITILTNVATKEIIGND JC2311 397 27 -
KIEILYNTVALEAKGDG A55468 204 27 -
KVTVRFNTVGVEVKGDD NEUCYS9 202 27 -
NIILHTNRTLEEVTGDQ TRXB_ECOLI 198 30 -
KIKFITNHTVVAVNGYT TRXB_MYCLE 202 27 -
KIVLHTDRTLDEVLGDN TRXB_HAEIN 199 30 -
KISFAWNSEVATIHGEQ TRXB_STRCL 195 27 -
KCKVRFNTVATEVIGEN TRXB_PENCH 206 27 -
NVTVIKNAQTKEITGDD DHNA_BACSP 397 27 -
KVAIVWSHVIEEVLGDD TRXB_COXBU 200 30 -
NVDIILNAQTTEVKGDG AHPF_SALTY 405 27 -
NVKIIWDSEIRNIVGEN R34K_CLOPA 196 27 -

Motif 8 width=22
Element Seqn Id St Int Rpt
GVFVQIGLVPSTDWLKDSGLAL JC2311 435 21 -
GLFVAIGHSPNTAIFEGQLELE TRXB_ECOLI 238 23 -
GVFVAIGHEPRSSLVSDVVDID TRXB_MYCLE 240 21 -
GLFVAIGHSPNTEIFQGQLELN TRXB_HAEIN 238 22 -
GLFIAVGHDPRTELFKGQLDLD TRXB_STRCL 233 21 -
GAFIQIGLAPNTEWLGDTVERN A49911 435 21 -
GVFVYIGYEPKTELFKDSININ R34K_CLOPA 234 21 -
GIFVQIGLLPNTHWLEGALERN AHPF_SALTY 444 22 -
GLFIAIGHDPNTKIFKEQLEMD TRXB_COXBU 239 22 -
GVFVQIGLVPNTDWLDGTLERN DHNA_BACSP 435 21 -
GLFYAVGHDPASGLVKGQVELD TRXB_PENCH 248 25 -
GLFFAIGHEPATKFLDGGVELD S44027 250 24 -
GLFYAIGHDPATALVKGQLETD NEUCYS9 242 23 -
GLFYAIGHTPATKIVAGQVDTD A55468 243 22 -

Motif 9 width=19
Element Seqn Id St Int Rpt
TSVPGVFAAGDVQDKKYRQ S44027 285 13 -
TSVPGIFAAGDCTDTPYKQ A49911 469 12 -
TNIPAIFAAGDCTDSAYKQ JC2311 470 13 -
TSVPGFFAAGDVQDSKYRQ A55468 278 13 -
TSVEGVFAAGDVQDKRYRQ NEUCYS9 277 13 -
TSIPGVFAAGDVMDHIYRQ TRXB_ECOLI 276 16 -
TSMDGVFAAGDLVDRTYRQ TRXB_MYCLE 275 13 -
TSVEGVFAAGDVMDHNYRQ TRXB_HAEIN 276 16 -
TNLTGVFAAGDVVDHTYRQ TRXB_STRCL 268 13 -
TNVEGVFACGDVQDKRYRQ TRXB_PENCH 283 13 -
TNVPGVFAAGDCTNSAYKQ DHNA_BACSP 469 12 -
TNIPGVFPAVVVRGQLYRQ TRXB_COXBU 278 17 -
TSVKGVFAAGDCTTVPYKQ AHPF_SALTY 478 12 -
TNIKGVFAAGDVRSKLIRQ R34K_CLOPA 268 12 -

Motif 10 width=20
Element Seqn Id St Int Rpt
QAITSAGSGCVAALEAEKFI TRXB_PENCH 301 -1 -
QAITAAGTGCSAALDAERYL TRXB_STRCL 286 -1 -
QAITSAGTGCMAALDAERYL TRXB_HAEIN 294 -1 -
QAITAAGSGCAAAIDAERWL TRXB_MYCLE 293 -1 -
QAITSAGTGCMAALDAERYL TRXB_ECOLI 294 -1 -
QAITAAGTGCMAALDAEHYL S44027 303 -1 -
QAITSAGTGCMAALDAEKFL NEUCYS9 295 -1 -
QIIVSMGAGATAALGAFDYL A49911 487 -1 -
QIIISMGSGATAALGAFDYL JC2311 488 -1 -
QAITSAGSGCMAALDAEKYL A55468 296 -1 -
QLTTAVSDGTVAALMAEKYI R34K_CLOPA 286 -1 -
QIIIATGEGAKASLSAFDYL AHPF_SALTY 496 -1 -
QTIAAAGMGCMPALDAERYL TRXB_COXBU 296 -1 -
QIIISMGSGATAALGAFDYL DHNA_BACSP 487 -1 -
Final Motifs
Motif 1  width=23
Element Seqn Id St Int Rpt
KVTIIGSGPAAHTAAIYLARAEI TRXB_YEAST 4 4 -
DVIIIGSGPAGYTAAIYAARAQL TRXB_MYCSM 9 9 -
KVVIIGSGPAAHTAAIYLARAEL TRXB_NEUCR 4 4 -
DVIVIGSGPAGYTAALYAARAQL O53592 16 16 -
KLLILGSGPAGYTAAVYAARANL TRXB_ECOLI 7 7 -
DVIVIGSGPAGYTAALYAARAQL TRXB_MYCTU 16 16 -
KVTIIGSGPAAHTAAIYLARAEM YHQ6_YEAST 28 28 -
KLVIIGSGPAGYTAAIYASRALL O84101 44 44 -
EVIVIGSGPAGYTAALYAARAQL TRXB_MYCLE 13 13 -
KLLILGSGPAGYTAAIYAARANL TRXB_HAEIN 8 8 -
NVVIIGSGPAGYTAAIYAARANL O22229 85 85 -
NVIIIGSGPAGYTAALYTARASL TRXB_STRCL 5 5 -
KVVIIGSGPAGHTAAIYLARGEL TRXB_SCHPO 5 5 -
KVVIIGSGAGAHTAAIYLSRAEL TRXB_PENCH 4 4 -
RLCIVGSGPAAHTAAIYAARAEL TRB1_ARATH 10 10 -
KIIILGSGPAGYTAAIYSSRANL TRXB_BUCAP 8 8 -
DIAIIGSGPAGLAAALYGARAKM TRXB_CLOLI 6 6 -
DIAIIGAGPAGMTAAVYASRANL O54079 7 7 -
DVIIIGAGPAGMTAALYTSRADL TRXB_LISMO 9 9 -
NVIIIGSGPAGYTAALYTARRSL TRXB_STRCO 5 5 -
DLAIIGSGPAGLAAALYGARAKM TRXB_EUBAC 6 6 -
DVLVVGGGPAGASSAIYAARKGI DHNA_BACSP 210 210 -
SLIILGSGPAGYTDAIYVARANL TRXB_COXBU 8 8 -
DVLVVGGGPAGASAAIYTARKGI DHNA_BACSU 210 210 -
DVIIIGAGPAGMTAAVYTSRANL TRXB_BACSU 7 7 -
DVLVVGGGPAGAAAAIYAARKGI O82864 213 213 -
DVLIVGSGPAGAAAAVYSARKGI AHPF_SALTY 214 214 -
DVLIVGSGPAGAAAAIYSARKGI AHPF_ECOLI 214 214 -
DVVIIGSGPAAHTAAIYLGRSSL Q24834 6 6 -
DVLVIGGGPAGASSAIYAARKGI Q06369 210 210 -
DLVIIGAGPAGLTAAIYAIRAKL R34K_CLOPA 8 8 -
DVIIIGAGPAGYTAAIYAARFGL O50134 25 25 -
DVLVIGGGPAGNSAAIYAARKGV Q54469 210 210 -
DVLVIGGGPAGNSAAIYAARKGV O66266 210 210 -
DVAIIGGGPAGLTAALYSARYGL O28718 3 3 -
DVIIVGSGPAGLTAGIYSVMSNY TRXB_BORBU 27 27 -
DVIIVGAGAAGLSAAQYACRANL TRXB_TREPA 6 6 -
DVAIVGAGPAGIAAGIYGKRANL TRXB_MYCPN 17 17 -
DMIVIGAGPAGLTAGIYGGRQGS O26804 6 6 -
DLVIVGAGPAGIASAIYGKRANL TRXB_MYCGE 17 17 -
DTIIIGAGPGGLTAGIYAMRGKL Q58931 4 4 -

Motif 2 width=16
Element Seqn Id St Int Rpt
GGQLTTTTEIENFPGF TRXB_YEAST 42 15 -
GGALMTTTEVENYPGF TRXB_MYCSM 42 10 -
GGQLTTTTEIENFPGF TRXB_NEUCR 42 15 -
GGALMTTTDVENYPGF O53592 49 10 -
GGQLTTTTEVENWPGD TRXB_ECOLI 40 10 -
GGALMTTTDVENYPGF TRXB_MYCTU 49 10 -
GGQLTTTTDIENFPGF YHQ6_YEAST 66 15 -
GGQLMTTTEVENFPGF O84101 80 13 -
GGALMTTTEVENYPGF TRXB_MYCLE 46 10 -
GGQLTTTDEIENWPGD TRXB_HAEIN 41 10 -
GGQLMTTTEVENFPGF O22229 122 14 -
GGALMNTTDVENFPGF TRXB_STRCL 39 11 -
GGQLTTTTDVENFPGF TRXB_SCHPO 43 15 -
GGQLTTTTDVENFPGF TRXB_PENCH 42 15 -
PGGQLNQPPRENFPGF TRB1_ARATH 47 14 -
GGQLMNTNEIENWPGD TRXB_BUCAP 41 10 -
GGQIVITHEVANYPGS TRXB_CLOLI 39 10 -
GGQMANTEEVENFPGF O54079 40 10 -
GGQMVNTAEVENYPGF TRXB_LISMO 42 10 -
GGALMNTTEVENFPGF TRXB_STRCO 39 11 -
GGQIVITHEVANYPGS TRXB_EUBAC 39 10 -
GGQIMDTLSIENFISQ DHNA_BACSP 242 9 -
GGQLMTTTDVANWPGE TRXB_COXBU 41 10 -
GGQVLDTMSIENFISV DHNA_BACSU 242 9 -
GGQMANTEDVENYPGF TRXB_BACSU 40 10 -
GGQVLDTLAIENFISV O82864 245 9 -
GGQVLDTVDIENYISV AHPF_SALTY 246 9 -
GGQILDTVDIENYISV AHPF_ECOLI 246 9 -
GGQLTTTTIIENFRIS Q24834 44 15 -
GGQVMDTLGIENFIGT Q06369 242 9 -
GGQIRETYTVENFPGF R34K_CLOPA 41 10 -
GGNMAITDLIENYPGF O50134 57 9 -
GGQVMETVGIENMIGT Q54469 242 9 -
GGQVMETVGIENMIGT O66266 242 9 -
VSQLSLAAKIENYPGF O28718 36 10 -
GGQLTTTTEVYNYPGF TRXB_BORBU 60 10 -
GGQALLIDSLENYPGY TRXB_TREPA 39 10 -
GGKVVKTNIVENYPGY TRXB_MYCPN 50 10 -
GGLGLEVPMMENYPGF O26804 39 10 -
GGKIVKTNIVENYPGF TRXB_MYCGE 50 10 -
GGRIAEAGIVENYPGF Q58931 37 10 -

Motif 3 width=11
Element Seqn Id St Int Rpt
GSELMDRMREQ TRXB_YEAST 63 5 -
GPELMDQMREQ TRXB_MYCSM 63 5 -
GQELMDKMKAQ TRXB_NEUCR 63 5 -
GPELMDEMREQ O53592 70 5 -
GPLLMERMHEH TRXB_ECOLI 61 5 -
GPELMDEMREQ TRXB_MYCTU 70 5 -
GSELMERMRKQ YHQ6_YEAST 87 5 -
GHQLMDLMKTQ O84101 101 5 -
GPELMDDMREQ TRXB_MYCLE 67 5 -
GSGLMQRMLQH TRXB_HAEIN 62 5 -
GPDLMEKMRKQ O22229 143 5 -
GPDLMDNMRAQ TRXB_STRCL 60 5 -
GTTLTENFRAQ TRXB_SCHPO 64 5 -
GAELMDNMRAQ TRXB_PENCH 63 5 -
GVELTDKFRKQ TRB1_ARATH 68 5 -
GPELMNRMHEH TRXB_BUCAP 62 5 -
GPSLIGRMEEQ TRXB_CLOLI 60 5 -
GPDLSTKMFEH O54079 60 4 -
GPDLSDKMLSG TRXB_LISMO 62 4 -
GPELMDNMRAQ TRXB_STRCO 60 5 -
GPSLIERMEEQ TRXB_EUBAC 60 5 -
GPKLAASLEEH DHNA_BACSP 262 4 -
GPKLLERMQKH TRXB_COXBU 62 5 -
GPKLAASLEEH DHNA_BACSU 262 4 -
GPELSNKMFEH TRXB_BACSU 60 4 -
GPKLATALEEH O82864 265 4 -
GQKLAGALKAH AHPF_SALTY 266 4 -
GQKLAGALKVH AHPF_ECOLI 266 4 -
GNELMMNMRTQ Q24834 67 7 -
GPKLISEIEQH Q06369 262 4 -
GADLADKMEEH R34K_CLOPA 61 4 -
GSELSKKMYDQ O50134 78 5 -
GPQLMAQVEEH Q54469 262 4 -
GPQLMAQVEEH O66266 262 4 -
GMELLEKMKEQ O28718 55 3 -
GRNLMLNMREQ TRXB_BORBU 81 5 -
GFEYAENMKKQ TRXB_TREPA 60 5 -
GPDLGLEMYNH TRXB_MYCPN 70 4 -
GMSLVTKMKKQ O26804 59 4 -
GPELGLEMYNH TRXB_MYCGE 70 4 -
GYELAEKFKNH Q58931 57 4 -

Motif 4 width=9
Element Seqn Id St Int Rpt
DAIILATGA TRXB_YEAST 112 38 -
RAVILAMGA TRXB_MYCSM 108 34 -
DSIILATGA TRXB_NEUCR 111 37 -
RAVILAMGA O53592 116 35 -
DALIIATGA TRXB_ECOLI 106 34 -
RAVILAMGA TRXB_MYCTU 116 35 -
DAIILATGA YHQ6_YEAST 136 38 -
DACIIATGA O84101 146 34 -
RAVILAMGT TRXB_MYCLE 113 35 -
DALIIATGA TRXB_HAEIN 107 34 -
HSIIYATGA O22229 188 34 -
KAVIVTTGS TRXB_STRCL 106 35 -
DSVILATGA TRXB_SCHPO 113 38 -
DAVIIATGA TRXB_PENCH 115 41 -
DAVILAIGA TRB1_ARATH 113 34 -
DAVIIATGA TRXB_BUCAP 107 34 -
KAVIVATGA TRXB_CLOLI 105 34 -
KAVIIATGA O54079 105 34 -
RAIIIATGA TRXB_LISMO 107 34 -
KAVIVTTGS TRXB_STRCO 106 35 -
KSVILATGA TRXB_EUBAC 105 34 -
KSVILSTGA DHNA_BACSP 308 35 -
DALIIATGA TRXB_COXBU 108 35 -
KTVILSTGA DHNA_BACSU 308 35 -
RAVIIAAGA TRXB_BACSU 105 34 -
KTVILATGA O82864 314 38 -
RSIIIATGA AHPF_SALTY 316 39 -
RSIIVATGA AHPF_ECOLI 316 39 -
KSVIIASNA Q24834 113 35 -
KTIILATGA Q06369 308 35 -
KALIIATGA R34K_CLOPA 107 35 -
KTIIIAVGA O50134 131 42 -
KTAVLALGA Q54469 308 35 -
KTAVLALGA O66266 308 35 -
KAIIVATGG O28718 100 34 -
KAVIIAVGS TRXB_BORBU 126 34 -
MSVILATGA TRXB_TREPA 105 34 -
KTVIYATGM TRXB_MYCPN 116 35 -
SAIIFATGS O26804 103 33 -
KTVIYATGM TRXB_MYCGE 116 35 -
KTIVIATGT Q58931 102 34 -

Motif 5 width=13
Element Seqn Id St Int Rpt
WQKGISACAVCDG TRXB_YEAST 134 13 -
TGMGVSTCATCDG TRXB_MYCSM 130 13 -
WQNGISACAVCDG TRXB_NEUCR 133 13 -
LGRGVSSCATCDG O53592 138 13 -
KGRGVSACATCDG TRXB_ECOLI 128 13 -
LGRGVSSCATCDG TRXB_MYCTU 138 13 -
WQQGISACAVCDG YHQ6_YEAST 158 13 -
WQKGVTACAVCDG O84101 170 15 -
LGRGVSACATCDG TRXB_MYCLE 135 13 -
KGRGVSACATCDG TRXB_HAEIN 129 13 -
WSRGISACAICDG O22229 210 13 -
SGRGVSWCATCDG TRXB_STRCL 128 13 -
WQAGISACAVCDG TRXB_SCHPO 135 13 -
WQNGISACAVCDG TRXB_PENCH 137 13 -
WNRGISACAVCDG TRB1_ARATH 139 17 -
KGKGISTCAVCDG TRXB_BUCAP 129 13 -
TGKGVSYCATCDA TRXB_CLOLI 127 13 -
GGRGVSYCAVCDG O54079 127 13 -
SGRGVSYCAVCDG TRXB_LISMO 129 13 -
SGRGVSWCATCDG TRXB_STRCO 128 13 -
TGKGVSYCATCDA TRXB_EUBAC 127 13 -
KNKGVAYCPHCDG DHNA_BACSP 330 13 -
MGKGVSACATCDG TRXB_COXBU 130 13 -
KNKGVAYCPHCDG DHNA_BACSU 330 13 -
GGRGVSYCAVCDG TRXB_BACSU 127 13 -
RGRGVAYCPHCDG O82864 336 13 -
RTKGVTYCPHCDG AHPF_SALTY 338 13 -
RTKGVTYCPHCDG AHPF_ECOLI 338 13 -
AKIGVSACAICDG Q24834 135 13 -
KNKGVAYCTHCDA Q06369 330 13 -
HGKVIHYCELCDG R34K_CLOPA 129 13 -
TGRGVSYCATCDG O50134 153 13 -
FNKGVTYCPHCDG Q54469 330 13 -
FNKGVTYCPHCDG O66266 330 13 -
IGRGVSYCATCDG O28718 122 13 -
WNKGISVCAICDG TRXB_BORBU 149 14 -
LGRGVSYCATCDG TRXB_TREPA 127 13 -
YGKGISYCAICDG TRXB_MYCPN 138 13 -
LGRGVCYCATCDG O26804 125 13 -
YGKGISYCAICDA TRXB_MYCGE 138 13 -
IGRGISYCTMCDA Q58931 123 12 -

Motif 6 width=25
Element Seqn Id St Int Rpt
FRNKPLAVIGGGDSACEEAQFLTKY TRXB_YEAST 151 4 -
FRDQDIVVVGGGDSAMEEATFLTRF TRXB_MYCSM 145 2 -
FRNKHLVVIGGGDSAAEEAMYLTKY TRXB_NEUCR 150 4 -
FRDQDIAVIGGGDSAMEEATFLTRF O53592 153 2 -
YRNQKVAVIGGGNTAVEEALYLSNI TRXB_ECOLI 143 2 -
FRDQDIAVIGGGDSAMEEATFLTRF TRXB_MYCTU 153 2 -
FRNKPLAVIGGGDSACEEAEFLTKY YHQ6_YEAST 175 4 -
FRDKDLFVVGGGDSALEEAMFLTRY O84101 187 4 -
FRGQDIAVIGGGDSAMEEALFLTRF TRXB_MYCLE 150 2 -
YRNKPVGVIGGGNTAVEEALYLANI TRXB_HAEIN 144 2 -
FKGQVLAVVGGGDTATEEALYLTKY O22229 227 4 -
FKDQDIVVVGGGDTAMEEATFLSRF TRXB_STRCL 143 2 -
YRNKPLAVVGGGDSAAEEAQFLTKY TRXB_SCHPO 152 4 -
FRNKPLYVIGGGDSAAEEAMFLAKY TRXB_PENCH 154 4 -
FRNKPLAVIGGGDSAMEEANFLTKY TRB1_ARATH 156 4 -
YKNKEIAVVGGGNTAIEETLYLSNF TRXB_BUCAP 144 2 -
FEDMEVFVIGGGDTAVEEAMFLTKF TRXB_CLOLI 142 2 -
FKNKRLFVIGGGDSAVEEGTFLTKF O54079 142 2 -
FKNRELIVVGGGDSAVEEGTYLTRY TRXB_LISMO 144 2 -
FFKDQDIAVIGGDTAMEEATFLSRF TRXB_STRCO 142 1 -
FEDMEVFVVGGGDTAVEEAMYLAKF TRXB_EUBAC 142 2 -
FEGKDVAVIGGGNSGVEAAIDLAGI DHNA_BACSP 345 2 -
YRAKKVAVVGGGNTSVEEALYLSHI TRXB_COXBU 145 2 -
FEGKDVAVIGGGNSGIEAAIDLAGI DHNA_BACSU 345 2 -
FKGKELVVVGGGDSAVEEGVYLTRF TRXB_BACSU 142 2 -
FKGKRVAVIGGGNSGVEAAIDLAGI O82864 351 2 -
FKGKRVAVIGGGNSGVEAAIDLAGI AHPF_SALTY 353 2 -
FKGKRVAVIGGGNSGVEAAIDLAGI AHPF_ECOLI 353 2 -
FRNKVLMVEGGGDAAMEEALHLTKY Q24834 152 4 -
FEGKHVAVVGGGNSGIESALDLAGI Q06369 345 2 -
YQGKDLVVVGGGNSAVEAAIFLTKY R34K_CLOPA 144 2 -
FVGKEVIVVGGGNTALQEALYLHSI O50134 168 2 -
FTDKKVAVIGGGNSGLEAAIDLAGL Q54469 345 2 -
FTDKKVAVIGGGNSGLEAAIDLAGL O66266 345 2 -
FRGKKVIVYGSGKEAIEDAIYLHDI O28718 137 2 -
FKGKRVAVIGGGNTALSESIYLSKL TRXB_BORBU 164 2 -
FRNKHVVVIGGGDAACDESLVLSRL TRXB_TREPA 142 2 -
YKDQVVGVVGGGNSAIQEALYLASM TRXB_MYCPN 153 2 -
YKGRKVLMVGGGNSAAQEAVFLKNI O26804 140 2 -
YKGKTVGVVGGGNSAIQEAIYLSSI TRXB_MYCGE 153 2 -
YLNKEVIVIGRDTPAIMSAINLKDI Q58931 138 2 -

Motif 7 width=17
Element Seqn Id St Int Rpt
KIEILYNTVALEAKGDG TRXB_YEAST 203 27 -
KITFLTNTEITQIEGDP TRXB_MYCSM 197 27 -
KVTVRFNTVGVEVKGDD TRXB_NEUCR 202 27 -
KIRFLTNHTVVAVDGDT O53592 205 27 -
NIILHTNRTLEEVTGDQ TRXB_ECOLI 198 30 -
KIRFLTNHTVCAVDGDT TRXB_MYCTU 205 27 -
NIIVLFNTVALEAKGDG YHQ6_YEAST 227 27 -
KIFFLWNSEIVKISGDT O84101 239 27 -
KIKFITNHTVVAVNGYT TRXB_MYCLE 202 27 -
KIVLHTDRTLDEVLGDN TRXB_HAEIN 199 30 -
NITVHYNTETVDVLSNT O22229 279 27 -
KISFAWNSEVATIHGEQ TRXB_STRCL 195 27 -
KVEVLWNTVAEEAQGDG TRXB_SCHPO 204 27 -
KCKVRFNTVATEVIGEN TRXB_PENCH 206 27 -
KIDVIWNSSVVEAYGDG TRB1_ARATH 208 27 -
KVILHLNSTIEDILGNN TRXB_BUCAP 199 30 -
KLNFMWNTVIEEIKGDG TRXB_CLOLI 194 27 -
KIDFIWSHTLKSINEKD O54079 194 27 -
KVDFIWNSTVEEIVGDG TRXB_LISMO 196 27 -
KISFVWDSEVAEVQGDQ TRXB_STRCO 194 27 -
KLDFMWNSAIEEIKGDG TRXB_EUBAC 194 27 -
NVTVIKNAQTKEITGDD DHNA_BACSP 397 27 -
KVAIVWSHVIEEVLGDD TRXB_COXBU 200 30 -
NVTVVKNAQTKEITGDQ DHNA_BACSU 397 27 -
KVDFLWNKTVKEIHEEN TRXB_BACSU 194 27 -
NVNVITSALTTEVLGNG O82864 403 27 -
NVDIILNAQTTEVKGDG AHPF_SALTY 405 27 -
NVDIILNAQTTEVKGDG AHPF_ECOLI 405 27 -
KIEVIWNSELVELEGDG Q24834 204 27 -
NVDVILNAQTTEITGDE Q06369 397 27 -
NVKIIWDSEIRNIVGEN R34K_CLOPA 196 27 -
GIPAILNTVVTEIKGTN O50134 219 26 -
NITILTNVATKEIIGND Q54469 397 27 -
NITILTNVATKEIIGND O66266 397 27 -
GIPVHYSTTIRKIIGSG O28718 188 26 -
NIEILYNSEAIEVDGKS TRXB_BORBU 216 27 -
HIAVQWNTTLEAVRGET TRXB_TREPA 194 27 -
NVVFHLNYTVKELLGNN TRXB_MYCPN 205 27 -
EIPVIWNSVVKEIGGDE O26804 191 26 -
NVVFHLNATVKQLIGQE TRXB_MYCGE 205 27 -
NVEIIYNAKPLEIVGEE Q58931 191 28 -

Motif 8 width=22
Element Seqn Id St Int Rpt
GLFYAIGHTPATKIVAGQVDTD TRXB_YEAST 242 22 -
GVFVAIGHDPRSELVRGQVELD TRXB_MYCSM 235 21 -
GLFYAIGHDPATALVKGQLETD TRXB_NEUCR 242 23 -
GVFVAIGHEPRSGLVREAIDVD O53592 243 21 -
GLFVAIGHSPNTAIFEGQLELE TRXB_ECOLI 238 23 -
GVFVAIGHEPRSGLVREAIDVD TRXB_MYCTU 243 21 -
GLFYAIGHSPATDIVKGQVDEE YHQ6_YEAST 266 22 -
GVFFAIGHQPNTAFLGGQVALD O84101 277 21 -
GVFVAIGHEPRSSLVSDVVDID TRXB_MYCLE 240 21 -
GLFVAIGHSPNTEIFQGQLELN TRXB_HAEIN 238 22 -
GLFYGIGHSPNSQLLEGQVELD O22229 319 23 -
GLFIAVGHDPRTELFKGQLDLD TRXB_STRCL 233 21 -
GLFYAIGHIPATKLVAEQIELD TRXB_SCHPO 243 22 -
GLFYAVGHDPASGLVKGQVELD TRXB_PENCH 248 25 -
GLFFAIGHEPATKFLDGGVELD TRB1_ARATH 249 24 -
GLFVAIGYIPNTDIFTDQLKMK TRXB_BUCAP 240 24 -
GIFVFIGYDPKSALVEGKLELD TRXB_CLOLI 238 27 -
GVFIYIGMKPLTAPFKDLGITN O54079 233 22 -
GVFIYVGLVPLTKAFLNLGITD TRXB_LISMO 235 22 -
ALFIAIGHDPRTELFKGQLDLD TRXB_STRCO 232 21 -
GIFVFIGYIPKSDVFKGKITLD TRXB_EUBAC 238 27 -
GVFVQIGLVPNTDWLDGTLERN DHNA_BACSP 435 21 -
GLFIAIGHDPNTKIFKEQLEMD TRXB_COXBU 239 22 -
GVFVQIGLVPNTEWLEGTVERN DHNA_BACSU 435 21 -
GVFIYIGMLPLSKPFENLGITN TRXB_BACSU 233 22 -
GIFVQIGLLPNTDWLKGTVELS O82864 442 22 -
GIFVQIGLLPNTHWLEGALERN AHPF_SALTY 444 22 -
GIFVQIGLLPNTNWLEGAVERN AHPF_ECOLI 444 22 -
GLFYAIGHSQNSKFLGGQVKTA Q24834 243 22 -
GAFIQIGLAPNTEWLGDTVERN Q06369 435 21 -
GVFVYIGYEPKTELFKDSININ R34K_CLOPA 234 21 -
GVFIFIGYEPKTDFVKHLGITD O50134 257 21 -
GVFVQIGLVPSTDWLKDSGLAL Q54469 435 21 -
GVFVQIGLVPSTDWLKDSGLAL O66266 435 21 -
GIFVAIGMRPATDVVAELGVER O28718 226 21 -
AVFMAVGYKPNTEFLKGFLDLD TRXB_BORBU 254 21 -
AVFFFIGMVPITGLLPDAEKDS TRXB_TREPA 232 21 -
CVFPYIGFESITKPVEHLNLKL TRXB_MYCPN 243 21 -
GVFIAIGEEPLNQLAVDLGVEV O26804 229 21 -
CLFPYIGFESNNKPVLDLKLNL TRXB_MYCGE 243 21 -
GIFISLGHVPNTEFLKDSGIEL Q58931 227 19 -

Motif 9 width=19
Element Seqn Id St Int Rpt
TSVPGFFAAGDVQDSKYRQ TRXB_YEAST 277 13 -
TSLDGVFAAGDLVDHTYRQ TRXB_MYCSM 270 13 -
TSVEGVFAAGDVQDKRYRQ TRXB_NEUCR 277 13 -
TSLPGVFAAGDLVDRTYRQ O53592 278 13 -
TSIPGVFAAGDVMDHIYRQ TRXB_ECOLI 276 16 -
TSLPGVFAAGDLVDRTYRQ TRXB_MYCTU 278 13 -
TSVPGFFAAGDVQDSRYRQ YHQ6_YEAST 301 13 -
TSVPGVFAAGDVQDKYYRQ O84101 312 13 -
TSMDGVFAAGDLVDRTYRQ TRXB_MYCLE 275 13 -
TSVEGVFAAGDVMDHNYRQ TRXB_HAEIN 276 16 -
TSVEGVFAAGDVQDHEWRQ O22229 354 13 -
TNLTGVFAAGDVVDHTYRQ TRXB_STRCL 268 13 -
TSIPGFFAAGDVQDKVFRQ TRXB_SCHPO 278 13 -
TNVEGVFACGDVQDKRYRQ TRXB_PENCH 283 13 -
TSVPGVFAAGDVQDKKYRQ TRB1_ARATH 284 13 -
TNIPGVFAAGDVIDHVYRQ TRXB_BUCAP 278 16 -
TNVEGVFAAGDIRVKSLRQ TRXB_CLOLI 272 12 -
TSVPGIFAAGDVRDKGLRQ O54079 267 12 -
TNLPGIFAAGDVRAKSLRQ TRXB_LISMO 269 12 -
TNLTGVFGAGDVVDHTYRQ TRXB_STRCO 266 12 -
TNVEGVFAAGDIRVKSLRQ TRXB_EUBAC 272 12 -
TNVPGVFAAGDCTNSAYKQ DHNA_BACSP 469 12 -
TNIPGVFPAVVVRGQLYRQ TRXB_COXBU 278 17 -
TSVPGLFAAGDCTDSAYNQ DHNA_BACSU 469 12 -
TKVEGIFAAGDIREKSLRQ TRXB_BACSU 267 12 -
TSIPGVFAAGDVTTVPYKQ O82864 476 12 -
TSVKGVFAAGDCTTVPYKQ AHPF_SALTY 478 12 -
TNVKGVFAAGDCTTVPYKQ AHPF_ECOLI 478 12 -
TSVDGVFACGDVCDRVYRQ Q24834 276 11 -
TSVPGIFAAGDCTDTPYKQ Q06369 469 12 -
TNIKGVFAAGDVRSKLIRQ R34K_CLOPA 268 12 -
TKVPGIFAAGDITNVFKQI O50134 291 12 -
TNIPAIFAAGDCTDSAYKQ Q54469 470 13 -
TNIPAIFAAGDCTDSAYKQ O66266 470 13 -
TNVEGVFAAGDCCDNPLKQ O28718 261 13 -
TSVDGVFSCGDVSNKLYAQ TRXB_BORBU 288 12 -
TSVEGIFAAGDVRAKSFRQ TRXB_TREPA 265 11 -
TSLKGLFAAGDCRSKHFRQ TRXB_MYCPN 278 13 -
TNVPLVYAAGDITGGLNQW O26804 264 13 -
TNIKGFYVAGDCRSKSFRQ TRXB_MYCGE 278 13 -
TNIDGIYAVGDVRGGVMQV Q58931 262 13 -

Motif 10 width=20
Element Seqn Id St Int Rpt
QAITSAGSGCMAALDAEKYL TRXB_YEAST 295 -1 -
QAITAAGSGCAASIDAERWL TRXB_MYCSM 288 -1 -
QAITSAGTGCMAALDAEKFL TRXB_NEUCR 295 -1 -
QAVTAAGSGCAAAIDAERWL O53592 296 -1 -
QAITSAGTGCMAALDAERYL TRXB_ECOLI 294 -1 -
QAVTAAGSGCAAAIDAERWL TRXB_MYCTU 296 -1 -
QAVTSAGSGCIAALDAERYL YHQ6_YEAST 319 -1 -
QAITSAGSGCMAALDAERFL O84101 330 -1 -
QAITAAGSGCAAAIDAERWL TRXB_MYCLE 293 -1 -
QAITSAGTGCMAALDAERYL TRXB_HAEIN 294 -1 -
QAVTAAGSGCIAALSAERYL O22229 372 -1 -
QAITAAGTGCSAALDAERYL TRXB_STRCL 286 -1 -
QAITSAGSGCQAALLAMHYL TRXB_SCHPO 296 -1 -
QAITSAGSGCVAALEAEKFI TRXB_PENCH 301 -1 -
QAITAAGTGCMAALDAEHYL TRB1_ARATH 302 -1 -
QAITSSASGCMAALDSERYL TRXB_BUCAP 296 -1 -
QVVTATADGAIAAVQAEKYI TRXB_CLOLI 290 -1 -
QIVTATGDGSIAAQSAAEYI O54079 285 -1 -
QIVTATGDGGLAGQNAQKYV TRXB_LISMO 287 -1 -
QAITAAGTGCSAAVDAEPFL TRXB_STRCO 284 -1 -
QVVTACADGAIAATQAEKYV TRXB_EUBAC 290 -1 -
QIIISMGSGATAALGAFDYL DHNA_BACSP 487 -1 -
QTIAAAGMGCMPALDAERYL TRXB_COXBU 296 -1 -
QIIISMGSGATAALGAFDYL DHNA_BACSU 487 -1 -
QIVTATGDGSIAAQSVQHYV TRXB_BACSU 285 -1 -
QIVIAVGEGAKASLAAFDHL O82864 494 -1 -
QIIIATGEGAKASLSAFDYL AHPF_SALTY 496 -1 -
QIIIATGEGAKASLSAFDYL AHPF_ECOLI 496 -1 -
QAIVAAGSGCMAALSCEKWL Q24834 294 -1 -
QIIVSMGAGATAALGAFDYL Q06369 487 -1 -
QLTTAVSDGTVAALMAEKYI R34K_CLOPA 286 -1 -
QIAVAVGQGAIAANSAKEFI O50134 308 -2 -
QIIISMGSGATAALGAFDYL Q54469 488 -1 -
QIIISMGSGATAALGAFDYL O66266 488 -1 -
QVVTACGDGAVAAYSAYKYL O28718 279 -1 -
QAITAAAEGFIASVELGNFL TRXB_BORBU 306 -1 -
QVITATSDGALAAHAAASYI TRXB_TREPA 283 -1 -
QIGTAINDGIIAVLTIRDVL TRXB_MYCPN 296 -1 -
QWVTACAEGAIAATYAYREI O26804 281 -2 -
QIATAISDGVTAVLKVRDDI TRXB_MYCGE 296 -1 -
QVAKAVGDGCVAMANIIKYL Q58931 279 -2 -