Kitl Gene Detail

Summary

• Symbol
  Kitl
• Name
  kit ligand
• Synonyms
  blz, Gb, grizzle-belly, Kitlg, Mgf, SCF, SF, Sl, SLF, Steel, Steel factor, stem cell factor

• Feature Type
  protein coding gene
• IDs
  MGI:96974
  NCBI Gene: 17311
• Alliance
  gene page
• Transcription Start Sites
  13 TSS
• Candidate for QTL
  3 QTL

Location &
Maps

• Sequence Map
  Chr10:99851492-99936278 bp, + strand

  From Ensembl annotation of GRCm39
  

• View this region in JBrowse
  

• Genome Browsers
  Ensembl | UCSC | NCBI

• Genetic Map
  Chromosome 10, 51.40 cM
• Mapping Data
  52 experiments

Strain
Comparison

• SNPs within 2kb
  2669 from dbSNP Build 142
• Strain Annotations
  18
• RFLP
  17

Strain	Gene Model ID	Feature Type	Coordinates
C57BL/6J	MGI_C57BL6J_96974	protein coding gene	Chr10:99851477-99936278 (+)
129S1/SvImJ	MGP_129S1SvImJ_G0017689	protein coding gene	Chr10:101871849-101963601 (+)
A/J	MGP_AJ_G0017668	protein coding gene	Chr10:98165569-98251097 (+)
AKR/J	MGP_AKRJ_G0017628	protein coding gene	Chr10:100965612-101054692 (+)
BALB/cJ	MGP_BALBcJ_G0017632	protein coding gene	Chr10:98476803-98565626 (+)
C3H/HeJ	MGP_C3HHeJ_G0017455	protein coding gene	Chr10:100997089-101085542 (+)
C57BL/6NJ	MGP_C57BL6NJ_G0018088	protein coding gene	Chr10:105404476-105502604 (+)
CAROLI/EiJ	MGP_CAROLIEiJ_G0015768	protein coding gene	Chr10:93575706-93662258 (+)
CAST/EiJ	MGP_CASTEiJ_G0017018	protein coding gene	Chr10:101105167-101205619 (+)
CBA/J	MGP_CBAJ_G0017424	protein coding gene	Chr10:109481447-109582800 (+)
DBA/2J	MGP_DBA2J_G0017530	protein coding gene	Chr10:97256881-97342991 (+)
FVB/NJ	MGP_FVBNJ_G0017523	protein coding gene	Chr10:96461120-96547674 (+)
LP/J	MGP_LPJ_G0017604	protein coding gene	Chr10:102460705-102562922 (+)
NOD/ShiLtJ	MGP_NODShiLtJ_G0017553	protein coding gene	Chr10:110756939-110847279 (+)
NZO/HlLtJ	MGP_NZOHlLtJ_G0018126	protein coding gene	Chr10:100939138-101032261 (+)
PWK/PhJ	MGP_PWKPhJ_G0016800	protein coding gene	Chr10:97387232-97473857 (+)
SPRET/EiJ	MGP_SPRETEiJ_G0016589	protein coding gene	Chr10:99810517-99905138 (+)
WSB/EiJ	MGP_WSBEiJ_G0017078	protein coding gene	Chr10:100944334-101031327 (+)

Homology

• Human Ortholog
  KITLG, KIT ligand

• Vertebrate Orthologs
  4

Vertebrate Orthology Source

Alliance of Genome Resources

• Human Ortholog
  KITLG, KIT ligand
  
• Synonyms
  DCUA, DFNA69, FPH2, FPHH, Kitl, KL-1, MGF, SCF, SF, SHEP7, SLF, WS2F
• Links
  HGNC:6343

  NCBI Gene ID: 4254

  neXtProt AC: NX_P21583

  UniProt: P21583

  
  
• Chr Location
  12q21.32; chr12:88492793-88580851 (-)  GRCh38

---

• MGI Vertebrate Homology
  Kitl stringent orthology
  1 human;1 mouse;1 rat;2 zebrafish
  
• HCOP
  vertebrate homology predictions: KITLG
• Protein SuperFamily
  SCF
• Gene Tree
  Kitl
  

Human Diseases

• Diseases
  4 with human KITLG associations

				Human Disease	Mouse Models
				autosomal dominant nonsyndromic deafness 69 IDs autosomal dominant nonsyndromic deafness 69       DOID:0110590 ICD10CM:H90.3 OMIM:616697
				familial progressive hyperpigmentation with or without hypopigmentation IDs familial progressive hyperpigmentation with or without hypopigmentation       DOID:0111373 OMIM:145250
				pigmentation disease IDs pigmentation disease       DOID:10123 ICD9CM:709.09 UMLS_CUI:C0375489
				Waardenburg syndrome IDs Waardenburg syndrome       DOID:9258 MESH:D014849 NCI:C75008 NCI:C85222 OMIM:PS193500 ORDO:3440 ORDO:895 UMLS_CUI:C0079661 UMLS_CUI:C1847800 UMLS_CUI:C3266898

Click on a disease name to see all genes associated with that disease.

• Mutations/Alleles
  1 with disease annotations

• References
  1 with disease annotations

Mutations,
Alleles, and
Phenotypes

• Phenotype Summary
  96 phenotypes from 54 alleles in 49 genetic backgrounds
  90 phenotypes from multigenic genotypes
  10 images
  243 phenotype references
  

• All Mutations and Alleles
  83
• Chemically and radiation induced
  8
• Chemically induced (ENU)
  17
• Chemically induced (other)
  1
• Endonuclease-mediated
  6
• Gene trapped
  2
• Radiation induced
  15
• Spontaneous
  21
• Targeted
  10
• Transgenic
  2
• Genomic Mutations
  9 involving Kitl
• Incidental Mutations
  Mutagenetix , APF
• Find Mice (IMSR)
  94 strains or lines available
• Comparison Matrix
  Gene Expression + Phenotype

Mutations in this gene affect migration of embryonic stem cells and cause similar phenotypes to mutations in its receptor gene (Kit). Mutants show mild to severe defects in pigmentation, hemopoiesis and reproduction.

Gene Ontology
(GO)
Classifications

• All GO Annotations
  66
• GO References
  23

Expression

• Assay Results
  1433
• Tissues
  393
• cDNA Data
  112
• Literature Summary
  124

Images

Tissue x Stage Matrix

Comparison Matrix

Gene Expression + Phenotype

• Other Mouse Links
  Allen Institute
  GENSAT
  GEO
  Expression Atlas
• Other Vertebrate Links
  GEISHA KITLG
  Xenbase kitlg
  ZFIN kitlga, kitlgb

Sequences &
Gene Models

• All Sequences
  70
• RefSeq
  10
• UniProt
  5
• CCDS
  CCDS36046.1, CCDS83751.1

• Ensembl
  ENSMUSG00000019966 (Evidence)
• NCBI Gene
  17311

Representative Sequences			Length	Strain/Species
genomic	ENSMUSG00000019966	Ensembl Gene Model | MGI Sequence Detail	84787	C57BL/6J
transcript	ENSMUST00000105283	Ensembl | MGI Sequence Detail	5648	Not Applicable
polypeptide	ENSMUSP00000100920	Ensembl | MGI Sequence Detail	273	Not Applicable

Protein
Information

• UniProt
  5 Sequences
• Protein Ontology
  PR:000009345 kit ligand
  (term hierarchy)
• PDB
  2O26, 2O27
• InterPro Domains
  IPR009079 Four-helical cytokine-like, core
  IPR003452 Stem cell factor
• GlyGen
  P20826 4 sites

Molecular
Reagents

• All nucleic 161

  Genomic 12

  cDNA 118

  Primer pair 22

  Other 9

  
  

  Microarray probesets 6

Other
Accession IDs

MGD-MRK-10006, MGD-MRK-12219, MGD-MRK-14435, MGD-MRK-2018, MGD-MRK-2093, MGI:5304521

References

• Summaries
  All 590

  Developmental Gene Expression 124

  Diseases 1

  Gene Ontology 23

  Phenotypes 243
• Earliest
  J:3399 Sarvella PA, et al., Steel, a new dominant gene in the house mouse: With effects on coat pigment and blood. J Hered. 1956;47(3):123-128
• Latest
  J:353621 Patel VN, et al., Specific 3-O-sulfated heparan sulfate domains regulate salivary gland basement membrane metabolism and epithelial differentiation. Nat Commun. 2024 Aug 31;15(1):7584

TSS for Kitl:

(View these features in JBrowse)

Transcription Start Site	Location	Distance from Gene 5'-end
Tssr95553	Chr10:99851679-99851695 (+)	195 bp
Tssr95554	Chr10:99855146-99855151 (+)	3,657 bp
Tssr95555	Chr10:99862922-99862939 (+)	11,439 bp
Tssr95556	Chr10:99873990-99873998 (+)	22,502 bp
Tssr95557	Chr10:99886712-99886717 (+)	35,223 bp
Tssr95558	Chr10:99912156-99912160 (+)	60,666 bp
Tssr95559	Chr10:99932381-99932385 (+)	80,891 bp
Tssr95560	Chr10:99932885-99932897 (+)	81,399 bp
Tssr95561	Chr10:99933998-99934016 (+)	82,515 bp
Tssr95562	Chr10:99934436-99934453 (+)	82,953 bp
Tssr95563	Chr10:99934926-99934944 (+)	83,443 bp
Tssr95564	Chr10:99935027-99935044 (+)	83,544 bp
Tssr95565	Chr10:99935687-99935703 (+)	84,203 bp

Kitl is Candidate Gene for:

QTL	Genetic Location*	Genome Location (GRCm39)	Reference	QTL Note
Bgeq8	Chr10, 66.75 cM		J:99477	Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Bgeq8 (57 cM) on mouse Chromosome 10 as identified by ExQuest are Rdh7 and Hsd17b9. Hsd17b9 exhibits 9.5-fold increased expression in the liver of Tally Ho compared to C57BL/6J animals. For QTLs Insq9 (44 cM) and Igfbp3q2 (46 cM), potential candidate genes Ass1 (20 cM Chr 2)), Ftcd, Col18a1 (41.3 cM), Itgb2 (41.5 cM), Agpat3 (41.8 cM), Ndufs7, Oaz1 (43 cM), Pah (47 cM), Igf1 (48 cM), Nr1h4 (50 cM), and Kitl (57 cM) were identified.
Igfbp3q2	Chr10, syntenic		J:99477	Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Bgeq8 (57 cM) on mouse Chromosome 10 as identified by ExQuest are Rdh7 and Hsd17b9. Hsd17b9 exhibits 9.5-fold increased expression in the liver of Tally Ho compared to C57BL/6J animals. For QTLs Insq9 (44 cM) and Igfbp3q2 (46 cM), potential candidate genes Ass1 (20 cM Chr 2)), Ftcd, Col18a1 (41.3 cM), Itgb2 (41.5 cM), Agpat3 (41.8 cM), Ndufs7, Oaz1 (43 cM), Pah (47 cM), Igf1 (48 cM), Nr1h4 (50 cM), and Kitl (57 cM) were identified.
Insq9	Chr10, 39.72 cM	Chr10:82490938-82491121	J:99477	Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Bgeq8 (57 cM) on mouse Chromosome 10 as identified by ExQuest are Rdh7 and Hsd17b9. Hsd17b9 exhibits 9.5-fold increased expression in the liver of Tally Ho compared to C57BL/6J animals. For QTLs Insq9 (44 cM) and Igfbp3q2 (46 cM), potential candidate genes Ass1 (20 cM Chr 2)), Ftcd, Col18a1 (41.3 cM), Itgb2 (41.5 cM), Agpat3 (41.8 cM), Ndufs7, Oaz1 (43 cM), Pah (47 cM), Igf1 (48 cM), Nr1h4 (50 cM), and Kitl (57 cM) were identified.

*cM position of peak correlated region/marker