Incidental Mutation 'R6073:G6pc'
ID482593
Institutional Source Beutler Lab
Gene Symbol G6pc
Ensembl Gene ENSMUSG00000078650
Gene Nameglucose-6-phosphatase, catalytic
SynonymsGlc-6-Pase, G6Pase, G6pt, Glc-6-Pase-alpha
MMRRC Submission 044234-MU
Accession Numbers
Is this an essential gene? Essential (E-score: 1.000) question?
Stock #R6073 (G1)
Quality Score225.009
Status Validated
Chromosome11
Chromosomal Location101367561-101377903 bp(+) (GRCm38)
Type of Mutationmissense
DNA Base Change (assembly) T to A at 101367976 bp
ZygosityHeterozygous
Amino Acid Change Asparagine to Lysine at position 60 (N60K)
Ref Sequence ENSEMBL: ENSMUSP00000019469 (fasta)
Gene Model predicted gene model for transcript(s): [ENSMUST00000019469]
Predicted Effect probably benign
Transcript: ENSMUST00000019469
AA Change: N60K

PolyPhen 2 Score 0.000 (Sensitivity: 1.00; Specificity: 0.00)
SMART Domains Protein: ENSMUSP00000019469
Gene: ENSMUSG00000078650
AA Change: N60K

DomainStartEndE-ValueType
acidPPc 56 196 2.28e-40 SMART
transmembrane domain 214 236 N/A INTRINSIC
transmembrane domain 256 278 N/A INTRINSIC
transmembrane domain 291 308 N/A INTRINSIC
transmembrane domain 323 345 N/A INTRINSIC
Coding Region Coverage
  • 1x: 99.9%
  • 3x: 99.6%
  • 10x: 98.0%
  • 20x: 94.5%
Validation Efficiency 97% (57/59)
MGI Phenotype FUNCTION: The enzyme encoded by this gene is a multisubunit integral membrane protein of the endoplasmic reticulum that is composed of a catalytic subunit and transporters for glucose-6-phosphate, inorganic phosphate, and glucose. This gene is one of three glucose-6-phosphatase catalytic-subunit-encoding genes in mouse. Glucose-6-phosphatase catalyzes the hydrolysis of D-glucose 6-phosphate to D-glucose and orthophosphate and is a key enzyme in glucose homeostasis, functioning in gluconeogenesis and glycogenolysis. Mutations in this gene cause glycogen storage disease type I (GSD1). [provided by RefSeq, Sep 2015]
PHENOTYPE: Mice homozygous for disruptions in this gene tend to die within a couple of weeks of weaning. Blood chemistry and glucose metabolism are abnormal as is glycogen storage. [provided by MGI curators]
Allele List at MGI
Other mutations in this stock
Total: 58 list
GeneRefVarChr/LocMutationPredicted EffectZygosity
4930539E08Rik A T 17: 28,904,623 V367D probably damaging Het
Adrb2 A T 18: 62,179,466 M96K probably benign Het
Aox1 T C 1: 58,104,509 probably null Het
C3 C T 17: 57,206,223 G183R probably null Het
Cad A G 5: 31,062,562 T753A possibly damaging Het
Cc2d2a C T 5: 43,729,975 T1249M probably damaging Het
Cd74 G A 18: 60,811,486 probably null Het
Cenpc1 A G 5: 86,058,153 probably null Het
Cenpe T A 3: 135,260,073 L2104* probably null Het
Cttnbp2 A G 6: 18,434,233 I542T probably damaging Het
Cttnbp2 T C 6: 18,448,369 D97G probably benign Het
Dnah10 A G 5: 124,819,210 D3546G probably benign Het
Dscaml1 G A 9: 45,450,583 V214I probably benign Het
Eml2 G A 7: 19,201,163 V432I probably damaging Het
Epb41l2 T G 10: 25,501,832 H597Q probably damaging Het
Erbin G A 13: 103,844,921 Q499* probably null Het
Erc2 A T 14: 28,011,636 I556F probably benign Het
Fscn2 G T 11: 120,361,787 E27* probably null Het
Fsd1l A G 4: 53,679,994 T231A probably damaging Het
Gm13089 T C 4: 143,698,268 I202V probably damaging Het
Gm43302 A G 5: 105,290,959 V21A probably damaging Het
Heatr3 G T 8: 88,138,140 A41S probably benign Het
Hrct1 T C 4: 43,727,543 probably benign Het
Ihh T C 1: 74,951,279 probably benign Het
Jph3 A T 8: 121,753,552 Y323F probably damaging Het
Kcnj5 T C 9: 32,317,800 D34G probably damaging Het
Magi2 G A 5: 20,569,288 E231K probably damaging Het
Muc5b G A 7: 141,849,060 C667Y unknown Het
Muc5b A C 7: 141,858,288 Y1657S unknown Het
Myo10 G A 15: 25,736,642 C459Y probably damaging Het
Nemp1 A G 10: 127,689,243 K40E probably benign Het
Nipsnap1 T C 11: 4,888,895 F107S possibly damaging Het
Ntrk1 T C 3: 87,791,370 probably null Het
Pabpc1 A G 15: 36,600,651 I305T probably damaging Het
Piezo2 A G 18: 63,012,645 F2736S probably damaging Het
Pnldc1 T C 17: 12,890,363 Y450C probably null Het
Polr2g A T 19: 8,797,309 V70E probably damaging Het
Prpf8 T C 11: 75,494,022 probably null Het
Rfxap T C 3: 54,807,287 Y130C probably damaging Het
Rpl3l A G 17: 24,730,887 E20G probably benign Het
Rsf1 GGCGGCGGC GGCGGCGGCCGCGGCGGC 7: 97,579,906 probably benign Het
Slc39a10 T C 1: 46,832,612 D389G possibly damaging Het
Sorbs1 T C 19: 40,314,657 H496R probably damaging Het
Spast G A 17: 74,373,305 V420M probably damaging Het
Spata13 C T 14: 60,750,021 T876I probably damaging Het
Spata31d1a T A 13: 59,702,994 N440I probably damaging Het
Tdrd1 G T 19: 56,843,223 E349* probably null Het
Tie1 A G 4: 118,482,390 V398A probably benign Het
Tmem255b T A 8: 13,456,958 L229Q probably damaging Het
Tmem59 T A 4: 107,193,401 probably null Het
Trim3 G A 7: 105,617,539 R479C probably damaging Het
Ucp2 G A 7: 100,498,131 V131M possibly damaging Het
Vars A G 17: 35,001,529 D29G probably benign Het
Vmn2r43 T C 7: 8,255,185 K343R probably benign Het
Washc5 T C 15: 59,335,170 K1085E possibly damaging Het
Zfp647 G A 15: 76,912,085 P125L probably damaging Het
Zfp963 A T 8: 69,743,203 C86* probably null Het
Zfp977 A G 7: 42,580,741 I120T probably benign Het
Other mutations in G6pc
AlleleSourceChrCoordTypePredicted EffectPPH Score
IGL00863:G6pc APN 11 101370723 missense probably damaging 1.00
IGL03068:G6pc APN 11 101370750 missense probably benign 0.01
R1988:G6pc UTSW 11 101367942 missense probably damaging 0.97
R3936:G6pc UTSW 11 101374603 missense probably benign
R4601:G6pc UTSW 11 101372741 missense probably damaging 1.00
R4677:G6pc UTSW 11 101376613 missense probably benign
R6304:G6pc UTSW 11 101367909 missense probably damaging 1.00
R7103:G6pc UTSW 11 101374587 splice site probably null
R7143:G6pc UTSW 11 101370723 missense probably damaging 1.00
R7438:G6pc UTSW 11 101376677 missense probably benign 0.17
R7499:G6pc UTSW 11 101376694 nonsense probably null
R7960:G6pc UTSW 11 101376533 missense probably damaging 1.00
R8339:G6pc UTSW 11 101376488 missense possibly damaging 0.87
Predicted Primers PCR Primer
(F):5'- GCAAGGCACAGACTGATAGC -3'
(R):5'- TGGGATTCTGTAGAGACTCTCAAG -3'

Posted On2017-07-14