GapMind for catabolism of small carbon sources

 

Alignments for a candidate for ptsC in Cronobacter universalis NCTC 9529

Align IIC' aka PtsC2, component of N-Acetylglucosamine (NAG) porter (PtsBC1C2)(also may facilitate xylose transport) (characterized)
to candidate WP_007706749.1 AFK65_RS05935 PTS transporter subunit EIIC

Query= TCDB::Q8GBT6
         (403 letters)



>NCBI__GCF_001277175.1:WP_007706749.1
          Length = 674

 Score =  319 bits (817), Expect = 2e-91
 Identities = 181/402 (45%), Positives = 245/402 (60%), Gaps = 25/402 (6%)

Query: 1   MAVLQRIGRSLMLPVAVLPAAALLVRLGN-ADMLGRPEFPAFVTKIAGFMAAGGNAILDN 59
           +  LQR+GR+LM+PVA LPAAA+L+ +G   D  G     A    +A F    G+AI+DN
Sbjct: 4   LGYLQRVGRALMVPVATLPAAAILMGVGYWLDPTGWGGSNA----LAAFFIQSGSAIIDN 59

Query: 60  MALLFAVGIAIGFAKKSDGSTALAAVVGYLVFKNVLATFTDKNLPQVAKAVDGKVVMVDA 119
           M +LFAVG+A G +K  DG+ ALA  VG+LV   + +      +  + K    +V     
Sbjct: 60  MGVLFAVGVAYGMSKDKDGAAALAGFVGFLVLTTLCSPAA---VAMIMKIPADQVPAAFG 116

Query: 120 PVDAKVLGGVVMGLVVALLYQRFYRTKLPDWAGFFGGRRLVPILSAFAGLVIGIVFGYIW 179
            +  + +G +++G++ A LY RF   +LP    FF GRRLVPIL++F  +V+  +  YIW
Sbjct: 117 KIKNQFVG-IMVGIIAAELYNRFSAVELPKALSFFSGRRLVPILTSFVMIVVAFIMMYIW 175

Query: 180 PVLGTGLHNFGEWLVGSGAVGAGIFGVANRALIPIGMHHLLNSFPWFQAGEYEGKSGDIA 239
           PV+  GL +FGE +   G+VGAG++   NR LIP+G+HH LNS  WF          DI 
Sbjct: 176 PVVFGGLVDFGEQIQKLGSVGAGVYAFFNRLLIPVGLHHALNSVFWFDVAGIN----DIP 231

Query: 240 RFLAGDPT----------AGQFMTGFFPIMMFALPAACLAIVHCARPERRKVVGGMMFSL 289
            FL G  +           G++  GFFPIMMF LP A LAI HCARPE +  V G+M + 
Sbjct: 232 NFLGGAQSIESGKAVVGITGRYQAGFFPIMMFGLPGAALAIYHCARPENKAKVLGIMMAG 291

Query: 290 ALTSFVTGVTEPIEFTFMFIAPVLYAIHAVLTGVSMALTWALGMKDGFGFSAGAVDFFLN 349
           A  +F TG+TEP+EF+FMF+APVLY IHAVLTG+S+ +   +    GFGFSAG VD  L+
Sbjct: 292 AFAAFFTGITEPLEFSFMFVAPVLYVIHAVLTGISVFIAATMHWIAGFGFSAGLVDMVLS 351

Query: 350 L--GIASNPWGLALVGVCFAALYYVVFRFAITKFNLPTPGRE 389
               +A++ + L   G+ F  +YY VFRF ITKFNL TPGRE
Sbjct: 352 SRNPLATHWYMLIPQGLVFFVIYYAVFRFTITKFNLMTPGRE 393


Lambda     K      H
   0.328    0.143    0.441 

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: 820
Number of extensions: 51
Number of successful extensions: 5
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: 403
Length of database: 674
Length adjustment: 35
Effective length of query: 368
Effective length of database: 639
Effective search space:   235152
Effective search space used:   235152
Neighboring words threshold: 11
Window for multiple hits: 40
X1: 15 ( 7.1 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 40 (21.7 bits)
S2: 52 (24.6 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