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FLASH GENE

Symbol

MSI1

contributors: mct - updated : 10-04-2015

HGNC name	musashi homolog 1 (Drosophila)
HGNC id	7330

FLASH GENE DNA RNA EXPRESSION PROTEIN DISORDER ANIMAL & CELL MODELS

Location	12q24.31      Physical location : 120.779.132 - 120.806.958
Synonym name	musashi 1
	RNA-binding protein Musashi homolog 1

DNA

TYPE	functioning gene
STRUCTURE	27.83 kb     15 Exon(s)

10 Kb 5' upstream gene genomic sequence study

regulatory sequence	Promoter
	Binding site
text structure	RNA binding sites
	a conserved ARE in its 3' untranslated region

MAPPING

cloned

Y

linked

N

status

provisional

Map	cen - D12S317 - D12S78 - [{D12S338 - D12S1342 - D12S353 - D12S84 - D12S1605 - D12S105 - D12S1344 - D12S1583 - D12S1646} - D12S1341 ,D12S354 - D12S366 - D12S86 - D12S349 - MSI1 - D12S321 - PLA2G1B - D12S342 - D12S340 ] - D12S324 - D12S367 - D12S97 - qter
Text	{SPSMA} , [HMN2 ]

RNA

TRANSCRIPTS	type	messenger

identification nb exons type bp product Protein kDa AA specific expression Year Pubmed NM_002442 15 - 2950 NP_002433 - 362 - 2006 16777095

EXPRESSION

Type	restricted

expressed in	(based on citations)
organ(s)	System Organ level 1 Organ level 2 Organ level 3 Organ level 4 Level Pubmed Species Stage Rna symbol Reproductive male system testis       Visual eye

tissue

System Tissue Tissue level 1 Tissue level 2 Level Pubmed Species Stage Rna symbol Nervous central

cell lineage	CNS stem cells and neural progenitor cells
cell lines
fluid/secretion

at STAGE

physiological period

fetal

Text	brain, eye, lens retina, optic nerve, RPE, choroid

PROTEIN

PHYSICAL PROPERTIES

STRUCTURE

motifs/domains

two conserved tandem RNA recognition motifs

HOMOLOGY

interspecies

homolog to Drosophila Musahi 1

Homologene

FAMILY

Musashi family

CATEGORY

RNA associated

SUBCELLULAR LOCALIZATION	intracellular
	intracellular,cytoplasm
	intracellular,nucleus

basic FUNCTION	playing central roles in post-transcriptional gene regulation (in neural precursor cells)
	involved in oncogenic development (hepatoma)
	neural RNA-binding protein, plays an important role in regulating cell differentiation in precursor cells
	maintaining the stem cell proliferation state by acting as a translational repressor
	negative regulator of Paneth cell differentiation, an may contribute to maintain the undifferentiated phenotype of intestinal stem cells
	affects a network of genes and could function as a master regulator during development and tumor formation
	RNA-binding protein, and marker of progenitor cells in the nervous system functioning as a translational repressor
	implicated in the regulation of stress granule formation
	MSI2, and MSI1 affect asymmetric cell division, germ and somatic stem cell function and cell fate determination in various somatic tissues
	directly and indirectly affects multiple targets that influence both cell proliferation and cell fate decisions
	neural RNA-binding protein regulating ROBO3
	MSI1-mediated posttranscriptional regulation of ROBO3 controls midline crossing of precerebellar neurons
	nuclear, and cytoplasmic sequestering of MSI1 in retinal cells is context-specific, and may contribute to downstream functioning of MSI1
	neural RNA-binding protein, playing an important role in regulating cell differentiation in precursor cells
	key regulator for maintaining the characteristics of self-renewing stem cells
	distinct roles for Musashi-1 and Musashi-2 in the control of insulin expression and beta-cell proliferation
	is a novel link between ER stress and the compensatory beta-cell proliferation and the loss of beta-cell gene expression seen in specific phases of the progression to type 2 diabetes
	MSI1 and MSI2 are emerging as regulators of multiple critical biological processes relevant to cancer initiation, progression, and drug resistance

CELLULAR PROCESS

PHYSIOLOGICAL PROCESS

PATHWAY

metabolism

signaling

a component

INTERACTION

DNA

RNA

binding

small molecule

protein	interacting with ELAVL1, ELAVL2, ELAVL3, ELAVL4 (ELAV RNA-binding proteins exert an important post-transcriptional control on Musashi-1 expression in the transition from proliferation to neural differentiation of stem/progenitor cells)
	binds consensus motifs in the 3prime untranslated regions of mRNAs, interacts with the poly(A)–binding protein and competes for eukaryotic initiation factor-4G, thereby interfering with translation initiation
	directly binds and suppresses mRNA translation of NUMB, a negative regulator of Notch signaling, which influences neural developmentn
	binds to ROBO3 mRNA through RNA recognition motifs and increases the protein level of ROBO3 without affecting its mRNA level
	MSI1 and MSI2 bind and regulate the mRNA stability and translation of proteins operating in essential oncogenic signaling pathways, including NUMB/NOTCH, PTEN/MTOR, TGFB1/SMAD3, MYC, MET

cell & other

REGULATION

ASSOCIATED DISORDERS

corresponding disease(s)

Other morbid association(s)

Type Gene Modification Chromosome rearrangement Protein expression Protein Function tumoral     --over   in hepatoma tumoral     --over   MSI1 and MSI2 were significantly up-regulated in hepatocellular carcinoma (HCC) tissues

Susceptibility

Variant & Polymorphism

Candidate gene	may be a useful molecular marker for tumor detection (hepatoma)
	potentially a promising stem cell marker
Marker
Therapy target
	System Type Disorder Pubmed cancer digestive colon aberrant overexpression of MSI1 during metastasis of colon cancer also suggests that it is a potential therapeutic target

ANIMAL & CELL MODELS