Relation Results

Summary

Name ANOS1
Full Name Anosmin-1
Synonyms Adhesion molecule-like X-linked, Kallmann syndrome protein | ADMLX, KAL, KAL1, KALIG1
Primary ID P23352
Links - -
Type protein
Relations 3
Function Has a dual branch-promoting and guidance activity, which may play an important role in the patterning of mitral and tufted cell collaterals to the olf ...
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Type: Score: Layout: SPV 
0.20.20.2NFIXANOS1NFIANFIB

Relations

Regulator
Mechanism
target
score
+ down-regulates quantity img/direct_inhibition.png transcriptional regulation ANOS1 0.2
Identifier Residue Sequence Organism Cell Line
SIGNOR-268884 Mus musculus
pmid sentence
By integrating transcriptomic profiling (RNA-seq) of Nfia- and Nfix-deficient GNPs with epigenomic profiling (ChIP-seq against NFIA, NFIB and NFIX, and DNase I hypersensitivity assays), we reveal that these transcription factors share a large set of potential transcriptional targets, suggestive of complementary roles for these NFI family members in promoting neural development
Publications: 1 Organism: Mus Musculus
+ down-regulates quantity img/direct_inhibition.png transcriptional regulation ANOS1 0.2
Identifier Residue Sequence Organism Cell Line
SIGNOR-268872 Mus musculus
pmid sentence
By integrating transcriptomic profiling (RNA-seq) of Nfia- and Nfix-deficient GNPs with epigenomic profiling (ChIP-seq against NFIA, NFIB and NFIX, and DNase I hypersensitivity assays), we reveal that these transcription factors share a large set of potential transcriptional targets, suggestive of complementary roles for these NFI family members in promoting neural development
Publications: 1 Organism: Mus Musculus
+ down-regulates quantity img/direct_inhibition.png transcriptional regulation ANOS1 0.2
Identifier Residue Sequence Organism Cell Line
SIGNOR-268878 Mus musculus
pmid sentence
By integrating transcriptomic profiling (RNA-seq) of Nfia- and Nfix-deficient GNPs with epigenomic profiling (ChIP-seq against NFIA, NFIB and NFIX, and DNase I hypersensitivity assays), we reveal that these transcription factors share a large set of potential transcriptional targets, suggestive of complementary roles for these NFI family members in promoting neural development
Publications: 1 Organism: Mus Musculus
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