GapMind for catabolism of small carbon sources

 

Alignments for a candidate for gadh2 in Ochrobactrum thiophenivorans DSM 7216

Align D-gluconate dehydrogenase cytochrome c subunit (EC 1.1.99.3) (characterized)
to candidate WP_094506893.1 CEV31_RS09840 c-type cytochrome

Query= metacyc::MONOMER-12746
         (434 letters)



>NCBI__GCF_002252445.1:WP_094506893.1
          Length = 435

 Score =  228 bits (580), Expect = 4e-64
 Identities = 149/415 (35%), Positives = 204/415 (49%), Gaps = 32/415 (7%)

Query: 14  SAAANAAEA----DQQALVQQGEYLARAGDCVACHTAKDGKPFAGGLPMETPIGVIYSTN 69
           S A  A +A      Q+L+ +G  LA AGDC  CH+   G   AGG+P++ P+G IYSTN
Sbjct: 33  SVAPQAEQAMTPEQMQSLIPRGRELALAGDCFGCHSLPQGPMAAGGVPIQLPVGTIYSTN 92

Query: 70  ITPDKT-GIGDYSFEDFDKAVRHGVAKGGSTLYPAMPFPSYARVSDADMQALYAYFMKGV 128
           ITPDK  GIG+Y+  DF +A++ G+A G   LYPAMP+      +  D+ ALYAY M  +
Sbjct: 93  ITPDKEHGIGNYTRADFHRALKDGIAAGKGNLYPAMPYVYTHITTPDDLDALYAYMMS-I 151

Query: 129 APVARDNQDSDIPWPLSMRWPLSIWRWMFAPSVETPAPAAGSDPVISRGAYLVEGLGHCG 188
            P+   N+ +   + L +R  L+ W  +  P+ E P     S    +RGAYLVEGL HCG
Sbjct: 152 PPIPVANKANTGVFVLPVRPFLNFWNLLNFPNREVPQNELRSAEW-TRGAYLVEGLAHCG 210

Query: 189 ACHTPRALTMQEKALSASGGSDFLSGSAPLEGWIAKSLRGDHKDGLGSWSEEQLVQFLKT 248
           ACHTPR L M    L    G +    + P     A S  G        +  E L Q+L T
Sbjct: 211 ACHTPRNLMMGVDFLRPLQGGEVDGMAVPNITATALSKHG--------FDVETLSQYLST 262

Query: 249 GRSDRSAVFGGMSDVVVHSMQYMTDADLTAIARYL---------KSLPANDPKDQPHQYD 299
           G + +   F GM+ V   S   M   D+ A+A YL          + P   P  + H  +
Sbjct: 263 GIAPQGTSFAGMNTVTHFSTSVMDADDIKAVATYLLTDDEGNIAAAAPPPAPLAEAHNPE 322

Query: 300 KQVAQALWNGDDSKPGAAVYIDNCAACHRTDGHGYTRVFPALAGNPVLQSADATSLIHIV 359
                    G   + G   YI  CA CH  +G G   V PA+ GN  L   +  +LI +V
Sbjct: 323 P--------GSPMETGRLAYISACAGCHGVNGAGIPNVAPAMKGNATLAMDNPQTLIKVV 374

Query: 360 LKGGTLPATHSAPSTFTMPAFAWRLSDQEVADVVNFIRSSWGNQASAVKPGDVAA 414
           L G       +    + MP FA  + D E+A ++ +IR+ WG Q+ AV    VAA
Sbjct: 375 LNGIPTQTFTNGQRMYAMPPFAHMIDDPEIAALITWIRAEWGGQSVAVTTEQVAA 429


Lambda     K      H
   0.316    0.131    0.404 

Gapped
Lambda     K      H
   0.267   0.0410    0.140 


Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Sequences: 1
Number of Hits to DB: 514
Number of extensions: 36
Number of successful extensions: 6
Number of sequences better than 1.0e-02: 1
Number of HSP's gapped: 1
Number of HSP's successfully gapped: 1
Length of query: 434
Length of database: 435
Length adjustment: 32
Effective length of query: 402
Effective length of database: 403
Effective search space:   162006
Effective search space used:   162006
Neighboring words threshold: 11
Window for multiple hits: 40
X1: 16 ( 7.3 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.6 bits)
S2: 51 (24.3 bits)

This GapMind analysis is from Sep 24 2021. The underlying query database was built on Sep 17 2021.

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About GapMind

Each pathway is defined by a set of rules based on individual steps or genes. Candidates for each step are identified by using ublast (a fast alternative to protein BLAST) against a database of manually-curated proteins (most of which are experimentally characterized) or by using HMMer with enzyme models (usually from TIGRFam). Ublast hits may be split across two different proteins.

A candidate for a step is "high confidence" if either:

where "other" refers to the best ublast hit to a sequence that is not annotated as performing this step (and is not "ignored").

Otherwise, a candidate is "medium confidence" if either:

Other blast hits with at least 50% coverage are "low confidence."

Steps with no high- or medium-confidence candidates may be considered "gaps." For the typical bacterium that can make all 20 amino acids, there are 1-2 gaps in amino acid biosynthesis pathways. For diverse bacteria and archaea that can utilize a carbon source, there is a complete high-confidence catabolic pathway (including a transporter) just 38% of the time, and there is a complete medium-confidence pathway 63% of the time. Gaps may be due to:

GapMind relies on the predicted proteins in the genome and does not search the six-frame translation. In most cases, you can search the six-frame translation by clicking on links to Curated BLAST for each step definition (in the per-step page).

For more information, see:

If you notice any errors or omissions in the step descriptions, or any questionable results, please let us know

by Morgan Price, Arkin group, Lawrence Berkeley National Laboratory