|
blastp_kegg |
lcl|gmx:100795311
|
1 |
671 |
+ |
671 |
Gaps:3 |
100.00 |
674 |
88.87 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_kegg |
lcl|pmum:103328908
|
1 |
671 |
+ |
671 |
Gaps:8 |
100.00 |
675 |
88.59 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_kegg |
lcl|pper:PRUPE_ppa002409mg
|
1 |
671 |
+ |
671 |
Gaps:8 |
100.00 |
675 |
89.48 |
0.0 |
hypothetical protein
|
|
blastp_kegg |
lcl|pmum:103326677
|
1 |
671 |
+ |
671 |
Gaps:8 |
100.00 |
675 |
88.89 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_kegg |
lcl|tcc:TCM_025126
|
1 |
671 |
+ |
671 |
Gaps:3 |
100.00 |
674 |
89.91 |
0.0 |
Nucleolar GTP-binding protein
|
|
blastp_kegg |
lcl|cic:CICLE_v10004477mg
|
1 |
671 |
+ |
671 |
Gaps:5 |
100.00 |
676 |
88.76 |
0.0 |
hypothetical protein
|
|
blastp_kegg |
lcl|cit:102614112
|
1 |
671 |
+ |
671 |
Gaps:5 |
100.00 |
676 |
88.46 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_kegg |
lcl|pop:POPTR_0001s26610g
|
1 |
671 |
+ |
671 |
Gaps:5 |
100.00 |
676 |
89.64 |
0.0 |
POPTRDRAFT_549253 nucleolar GTP-binding protein 1
|
|
blastp_kegg |
lcl|cmo:103487763
|
1 |
671 |
+ |
671 |
Gaps:9 |
100.00 |
676 |
86.83 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_kegg |
lcl|mdm:103403990
|
1 |
671 |
+ |
671 |
Gaps:8 |
100.00 |
673 |
88.11 |
0.0 |
nucleolar GTP-binding protein 1-like
|
|
blastp_pdb |
2qu8_A
|
157 |
360 |
+ |
204 |
Gaps:12 |
84.21 |
228 |
50.52 |
2e-53 |
mol:protein length:228 Putative nucleolar GTP-binding protein 1
|
|
blastp_pdb |
2e87_A
|
6 |
299 |
+ |
294 |
none |
82.35 |
357 |
30.27 |
2e-45 |
mol:protein length:357 Hypothetical protein PH1320
|
|
blastp_pdb |
1udx_A
|
171 |
349 |
+ |
179 |
Gaps:26 |
38.22 |
416 |
32.70 |
2e-07 |
mol:protein length:416 the GTP-binding protein Obg
|
|
blastp_uniprot_sprot |
sp|Q9C6I8|NOG1_ARATH
|
1 |
671 |
+ |
671 |
Gaps:12 |
100.00 |
671 |
80.48 |
0.0 |
Nucleolar GTP-binding protein 1 OS Arabidopsis thaliana GN At1g50920 PE 2 SV 1
|
|
blastp_uniprot_sprot |
sp|Q9BZE4|NOG1_HUMAN
|
1 |
671 |
+ |
671 |
Gaps:51 |
100.00 |
634 |
57.26 |
0.0 |
Nucleolar GTP-binding protein 1 OS Homo sapiens GN GTPBP4 PE 1 SV 3
|
|
blastp_uniprot_sprot |
sp|Q99ME9|NOG1_MOUSE
|
1 |
671 |
+ |
671 |
Gaps:49 |
100.00 |
634 |
57.57 |
0.0 |
Nucleolar GTP-binding protein 1 OS Mus musculus GN Gtpbp4 PE 2 SV 3
|
|
blastp_uniprot_sprot |
sp|Q99P77|NOG1_RAT
|
1 |
671 |
+ |
671 |
Gaps:60 |
100.00 |
637 |
55.26 |
0.0 |
Nucleolar GTP-binding protein 1 OS Rattus norvegicus GN Gtpbp4 PE 2 SV 3
|
|
blastp_uniprot_sprot |
sp|Q54N72|NOG1_DICDI
|
1 |
671 |
+ |
671 |
Gaps:43 |
100.00 |
674 |
55.04 |
0.0 |
Probable nucleolar GTP-binding protein 1 OS Dictyostelium discoideum GN nog1 PE 1 SV 1
|
|
blastp_uniprot_sprot |
sp|Q9U6A9|NOG1_TRYBB
|
4 |
671 |
+ |
668 |
Gaps:35 |
99.39 |
655 |
51.61 |
0.0 |
Nucleolar GTP-binding protein 1 OS Trypanosoma brucei brucei GN NOG1 PE 1 SV 1
|
|
blastp_uniprot_sprot |
sp|Q9V411|NOG1_DROME
|
1 |
671 |
+ |
671 |
Gaps:29 |
100.00 |
652 |
54.14 |
0.0 |
Probable nucleolar GTP-binding protein 1 OS Drosophila melanogaster GN CG8801 PE 2 SV 1
|
|
blastp_uniprot_sprot |
sp|O94659|NOG1_SCHPO
|
1 |
671 |
+ |
671 |
Gaps:39 |
100.00 |
642 |
50.78 |
0.0 |
Probable nucleolar GTP-binding protein 1 OS Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN nog1 PE 1 SV 2
|
|
blastp_uniprot_sprot |
sp|Q02892|NOG1_YEAST
|
2 |
671 |
+ |
670 |
Gaps:45 |
100.00 |
647 |
49.30 |
0.0 |
Nucleolar GTP-binding protein 1 OS Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN NOG1 PE 1 SV 1
|
|
blastp_uniprot_sprot |
sp|Q74ZK6|NOG1_ASHGO
|
2 |
671 |
+ |
670 |
Gaps:44 |
100.00 |
642 |
49.69 |
0.0 |
Nucleolar GTP-binding protein 1 OS Ashbya gossypii (strain ATCC 10895 / CBS 109.51 / FGSC 9923 / NRRL Y-1056) GN NOG1 PE 3 SV 1
|
|
rpsblast_cdd |
gnl|CDD|31281
|
5 |
360 |
+ |
356 |
Gaps:16 |
98.84 |
346 |
41.23 |
1e-100 |
COG1084 COG1084 Predicted GTPase [General function prediction only].
|
|
rpsblast_cdd |
gnl|CDD|206684
|
169 |
355 |
+ |
187 |
Gaps:20 |
100.00 |
167 |
65.27 |
1e-78 |
cd01897 NOG Nucleolar GTP-binding protein (NOG). NOG1 is a nucleolar GTP-binding protein present in eukaryotes ranging from trypanosomes to humans. NOG1 is functionally linked to ribosome biogenesis and found in association with the nuclear pore complexes and identified in many preribosomal complexes. Thus defects in NOG1 can lead to defects in 60S biogenesis. The S. cerevisiae NOG1 gene is essential for cell viability and mutations in the predicted G motifs abrogate function. It is a member of the ODN family of GTP-binding proteins that also includes the bacterial Obg and DRG proteins.
|
|
rpsblast_cdd |
gnl|CDD|206668
|
173 |
354 |
+ |
182 |
Gaps:26 |
99.40 |
167 |
31.93 |
2e-27 |
cd01881 Obg_like Obg-like family of GTPases consist of five subfamilies: Obg DRG YyaF/YchF Ygr210 and NOG1. The Obg-like subfamily consists of five well-delimited ancient subfamilies namely Obg DRG YyaF/YchF Ygr210 and NOG1. Four of these groups (Obg DRG YyaF/YchF and Ygr210) are characterized by a distinct glycine-rich motif immediately following the Walker B motif (G3 box). Obg/CgtA is an essential gene that is involved in the initiation of sporulation and DNA replication in the bacteria Caulobacter and Bacillus but its exact molecular role is unknown. Furthermore several OBG family members possess a C-terminal RNA-binding domain the TGS domain which is also present in threonyl-tRNA synthetase and in bacterial guanosine polyphosphatase SpoT. Nog1 is a nucleolar protein that might function in ribosome assembly. The DRG and Nog1 subfamilies are ubiquitous in archaea and eukaryotes the Ygr210 subfamily is present in archaea and fungi and the Obg and YyaF/YchF subfamilies are ubiquitous in bacteria and eukaryotes. The Obg/Nog1 and DRG subfamilies appear to form one major branch of the Obg family and the Ygr210 and YchF subfamilies form another branch. No GEFs GAPs or GDIs for Obg have been identified.
|
|
rpsblast_cdd |
gnl|CDD|191952
|
409 |
463 |
+ |
55 |
none |
100.00 |
55 |
74.55 |
4e-24 |
pfam08155 NOGCT NOGCT (NUC087) domain. This C terminal domain is found in the NOG subfamily of nucleolar GTP-binding proteins.
|
|
rpsblast_cdd |
gnl|CDD|115510
|
235 |
292 |
+ |
58 |
none |
100.00 |
58 |
58.62 |
1e-22 |
pfam06858 NOG1 Nucleolar GTP-binding protein 1 (NOG1). This family represents a conserved region of approximately 60 residues in length within nucleolar GTP-binding protein 1 (NOG1). In S. cerevisiae the NOG1 gene has been shown to be essential for cell viability suggesting that NOG1 may play an important role in nucleolar functions. Family members include eukaryotic bacterial and archaeal proteins.
|
|
rpsblast_cdd |
gnl|CDD|202050
|
170 |
290 |
+ |
121 |
Gaps:10 |
100.00 |
117 |
29.91 |
9e-15 |
pfam01926 MMR_HSR1 50S ribosome-binding GTPase. The full-length GTPase protein is required for the complete activity of the protein of interacting with the 50S ribosome and binding of both adenine and guanine nucleotides with a preference for guanine nucleotide.
|
|
rpsblast_cdd |
gnl|CDD|206685
|
175 |
293 |
+ |
119 |
Gaps:33 |
70.59 |
170 |
27.50 |
6e-11 |
cd01898 Obg Obg GTPase. The Obg nucleotide binding protein subfamily has been implicated in stress response chromosome partitioning replication initiation mycelium development and sporulation. Obg proteins are among a large group of GTP binding proteins conserved from bacteria to humans. The E. coli homolog ObgE is believed to function in ribosomal biogenesis. Members of the subfamily contain two equally and highly conserved domains a C-terminal GTP binding domain and an N-terminal glycine-rich domain.
|
