The genus trace: a function that shows values of genus (vertical axis) for subchains spanned between the first residue, and all other residues (shown on horizontal axis). The number of the latter residue and the genus of a given subchain are shown interactively.
Total Genus |
121
|
sequence length |
420
|
structure length |
396
|
Chain Sequence |
ENVQEFVLKEDCELRFAAGDDSDVCLELVKGYAEIFGTELLLNKKYTFPAKSRVAAFTWKGATIELVGTTESAYVAESTPMVIYLNIHAAMEEVRKKREEQAKAKGPRLLLVGPTDVGKTTVSRILCNYSVRQGRTPIFVELDVGQNSVSVPGTVAAVLVQKTADVIDGFERNQPIVFNFGHTSPSANLSLYEALFKEMATTLNAQIQENDEAKIGGMIINTCGWVDGEGYKCIVKAASAFEVDVVIVLDHERLYSDLSKELPEFVRLTHVPKSGGVEQRTGQIRSKMRGENVHRYFYGTRANNLYPFTFDVSFDDVTLCKIGTKLVIMEPSADIKHHLFAFSRSTKADENVLKSPVFGFCLVTEVDLEKRTMSILCPQRTIPSKVLVFSDITHLD
|
The genus matrix. At position (x,y) a genus value for a subchain spanned between x’th and y’th residue is shown. Values of the genus are represented by color, according to the scale given on the right.
After clicking on a point (x,y) in the genus matrix above, a subchain from x to y is shown in color.
publication title |
RNA specificity and regulation of catalysis in the eukaryotic polynucleotide kinase clp1.
pubmed doi rcsb |
molecule tags |
Rna binding protein/rna
|
source organism |
Caenorhabditis elegans
|
molecule keywords |
Protein clpf-1
|
total genus |
121
|
structure length |
396
|
sequence length |
420
|
ec nomenclature | |
pdb deposition date | 2014-01-18 |
chain | Pfam Accession Code | Pfam Family Identifier | Pfam Description |
---|---|---|---|
A | PF06807 | Clp1 | Pre-mRNA cleavage complex II protein Clp1 |
A | PF16573 | CLP1_N | N-terminal beta-sandwich domain of polyadenylation factor |
A | PF16575 | CLP1_P | mRNA cleavage and polyadenylation factor CLP1 P-loop |
cath code
| Class | Architecture | Topology | Homology | Domain |
---|---|---|---|---|---|
Mainly Beta | Sandwich | Jelly Rolls | Jelly Rolls | ||
Alpha Beta | 2-Layer Sandwich | Alpha-Beta Plaits | Alpha-Beta Plaits | ||
Alpha Beta | 3-Layer(aba) Sandwich | Rossmann fold | P-loop containing nucleotide triphosphate hydrolases |