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NHP2L1 and RAD17
Number of citations of the paper that reports this interaction (PMID
10593953
)
16
Data Source:
HPRD
(in vivo, two hybrid)
NHP2L1
RAD17
Gene Name
NHP2 non-histone chromosome protein 2-like 1 (S. cerevisiae)
RAD17 homolog (S. pombe)
Image
No pdb structure
Gene Ontology Annotations
Cellular Component
Nucleus
Nucleoplasm
Spliceosomal Complex
Nucleolus
Box C/D SnoRNP Complex
Protein Complex
Chromosome, Telomeric Region
Nucleus
Nucleoplasm
Molecular Function
RNA Binding
Protein Binding
SnoRNA Binding
Poly(A) RNA Binding
Protein Binding
ATP Binding
Biological Process
MRNA Splicing, Via Spliceosome
RNA Splicing
Gene Expression
Ribosome Biogenesis
DNA Replication Checkpoint
DNA Damage Checkpoint
DNA Replication
DNA Repair
Cellular Response To DNA Damage Stimulus
Mitotic Cell Cycle Checkpoint
Negative Regulation Of DNA Replication
Regulation Of Phosphorylation
Pathways
Processing of Capped Intron-Containing Pre-mRNA
mRNA Splicing
mRNA Splicing - Minor Pathway
mRNA Splicing - Major Pathway
G2/M Checkpoints
Activation of ATR in response to replication stress
Cell Cycle Checkpoints
Drugs
Diseases
GWAS
Protein-Protein Interactions
14 interactors:
CDKN2C
CHST1
GTF3C1
LRIF1
MAP1LC3B
POLA2
PPIH
PRPF3
PRPF31
PRPF4
RAD17
RBM10
SNW1
XRCC6
16 interactors:
ATM
ATR
HUS1
MCM7
NHP2L1
POLE
PRKDC
PRMT6
RAD1
RAD9A
RAD9B
RFC2
RFC3
RFC4
RFC5
USP20
Entrez ID
4809
5884
HPRD ID
03197
09124
Ensembl ID
ENSG00000100138
ENSG00000152942
Uniprot IDs
P55769
Q6FHM6
O75943
PDB IDs
1E7K
2JNB
2OZB
3SIU
3SIV
Enriched GO Terms of Interacting Partners
?
RNA Splicing
MRNA Processing
MRNA Splicing, Via Spliceosome
RNA Splicing, Via Transesterification Reactions
MRNA Metabolic Process
RNA Processing
Nitrogen Compound Metabolic Process
Nucleobase-containing Compound Metabolic Process
Heterocycle Metabolic Process
Cellular Aromatic Compound Metabolic Process
Cellular Nitrogen Compound Metabolic Process
Spliceosomal Tri-snRNP Complex Assembly
RNA Metabolic Process
Gene Expression
Cellular Metabolic Process
Spliceosomal SnRNP Assembly
Positive Regulation Of Viral Process
Telomere Maintenance
Positive Regulation Of Vitamin D Receptor Signaling Pathway
Cellular Hyperosmotic Salinity Response
Macromolecule Biosynthetic Process
5S Class RRNA Transcription From RNA Polymerase III Type 1 Promoter
TRNA Transcription From RNA Polymerase III Promoter
Cellular Response To X-ray
Regulation Of Vitamin D Receptor Signaling Pathway
Regulation Of Viral Process
G1/S Transition Of Mitotic Cell Cycle
TRNA Transcription
Ribonucleoprotein Complex Assembly
Establishment Of Integrated Proviral Latency
Metabolic Process
Cellular Hyperosmotic Response
Hyperosmotic Salinity Response
Establishment Of Viral Latency
Positive Regulation By Host Of Viral Transcription
Mitotic Cell Cycle Process
DNA Replication Checkpoint
Cellular Response To Salt Stress
DNA Recombination
Mitotic Cell Cycle
DNA Ligation
Cellular Response To DNA Damage Stimulus
DNA Repair
DNA Replication
DNA Metabolic Process
Cell Cycle Process
Cellular Response To Stress
DNA Recombination
Telomere Maintenance
Cell Cycle
Nucleotide-excision Repair, DNA Gap Filling
Telomere Maintenance Via Semi-conservative Replication
DNA Damage Checkpoint
Nuclear DNA Replication
Telomere Maintenance Via Recombination
Mitotic Cell Cycle
Mitotic Recombination
DNA Strand Elongation Involved In DNA Replication
DNA Strand Elongation
Telomere Maintenance Via Telomere Lengthening
Transcription-coupled Nucleotide-excision Repair
Cell Cycle Checkpoint
DNA-dependent DNA Replication
Response To Stress
Response To Ionizing Radiation
Nucleobase-containing Compound Metabolic Process
Cellular Response To Ionizing Radiation
Heterocycle Metabolic Process
Cellular Aromatic Compound Metabolic Process
Cellular Nitrogen Compound Metabolic Process
Nucleotide-excision Repair
Chromosome Organization
Nitrogen Compound Metabolic Process
Cellular Response To Radiation
Cellular Macromolecule Biosynthetic Process
Macromolecule Biosynthetic Process
Double-strand Break Repair Via Homologous Recombination
Recombinational Repair
Response To Radiation
Biosynthetic Process
Cellular Response To Stimulus
Cellular Metabolic Process
Double-strand Break Repair
Mitotic Cell Cycle Process
Mitotic Cell Cycle Checkpoint
Response To Gamma Radiation
Organelle Organization
Negative Regulation Of Cell Cycle
Positive Regulation Of Response To DNA Damage Stimulus
Negative Regulation Of Mitotic Cell Cycle
Homeostatic Process
Tagcloud
?
acetylcysteine
antioxidant
chk1
converted
depleted
driving
experiencing
gamma
h2ax
h2o2
illustrate
instability
intertwined
micronuclei
mildly
mimics
mn
nac
p400
pan
peroxide
promoting
redox
reinforce
rnai
ros
sesn1
stressed
subclass
Tagcloud (Difference)
?
acetylcysteine
antioxidant
chk1
converted
depleted
driving
experiencing
gamma
h2ax
h2o2
illustrate
instability
intertwined
micronuclei
mildly
mimics
mn
nac
p400
pan
peroxide
promoting
redox
reinforce
rnai
ros
sesn1
stressed
subclass
Tagcloud (Intersection)
?