Incidental Mutation 'IGL01710:Papolg'
ID104743
Institutional Source Australian Phenomics Network (link to record)
Gene Symbol Papolg
Ensembl Gene ENSMUSG00000020273
Gene Namepoly(A) polymerase gamma
Synonyms
Accession Numbers
Is this an essential gene? Probably essential (E-score: 0.910) question?
Stock #IGL01710
Quality Score
Status
Chromosome11
Chromosomal Location23862646-23895253 bp(-) (GRCm38)
Type of Mutationmissense
DNA Base Change (assembly) A to T at 23864026 bp
ZygosityHeterozygous
Amino Acid Change Serine to Threonine at position 718 (S718T)
Ref Sequence ENSEMBL: ENSMUSP00000020513 (fasta)
Gene Model predicted gene model for transcript(s): [ENSMUST00000020513]
Predicted Effect probably damaging
Transcript: ENSMUST00000020513
AA Change: S718T

PolyPhen 2 Score 0.994 (Sensitivity: 0.69; Specificity: 0.97)
SMART Domains Protein: ENSMUSP00000020513
Gene: ENSMUSG00000020273
AA Change: S718T

DomainStartEndE-ValueType
Pfam:PAP_central 20 363 1.4e-118 PFAM
Pfam:NTP_transf_2 53 174 2.8e-15 PFAM
Pfam:PAP_RNA-bind 365 431 2.4e-22 PFAM
Pfam:PAP_RNA-bind 421 506 1.2e-8 PFAM
Predicted Effect probably benign
Transcript: ENSMUST00000145013
SMART Domains Protein: ENSMUSP00000115518
Gene: ENSMUSG00000020273

DomainStartEndE-ValueType
SCOP:d1f5aa1 2 29 3e-10 SMART
PDB:4LT6|B 2 38 4e-16 PDB
Predicted Effect noncoding transcript
Transcript: ENSMUST00000150711
Coding Region Coverage
Validation Efficiency
MGI Phenotype FUNCTION: [Summary is not available for the mouse gene. This summary is for the human ortholog.] This gene encodes a member of the poly(A) polymerase family which catalyzes template-independent extension of the 3' end of a DNA/RNA strand. This enzyme shares 60% identity to the well characterized poly(A) polymerase II (PAPII) at the amino acid level. These two enzymes have similar organization of structural and functional domains. This enzyme is exclusively localized in the nucleus and exhibits both nonspecific and CPSF (cleavage and polyadenylation specificity factor)/AAUAAA-dependent polyadenylation activity. This gene is located on chromosome 2 in contrast to the PAPII gene, which is located on chromosome 14. [provided by RefSeq, Jul 2008]
Allele List at MGI
Other mutations in this stock
Total: 41 list
GeneRefVarChr/LocMutationPredicted EffectZygosity
Ablim3 G A 18: 61,871,574 T48I probably damaging Het
Ccpg1 T C 9: 72,997,441 probably benign Het
Chkb G A 15: 89,426,640 Q379* probably null Het
Chst15 T A 7: 132,270,507 D15V probably benign Het
Cntn4 G A 6: 106,550,431 V425I possibly damaging Het
Cpa6 T A 1: 10,325,272 N390I probably damaging Het
Efhd2 A G 4: 141,860,561 F193S probably damaging Het
Ell3 T C 2: 121,441,512 H128R probably damaging Het
Ercc5 T G 1: 44,164,075 L291V probably damaging Het
Eva1c A G 16: 90,904,347 Y302C probably damaging Het
Fmo3 A C 1: 162,983,043 L26R probably damaging Het
Galntl6 T A 8: 58,535,968 D17V probably damaging Het
Gm6483 C T 8: 19,691,613 P55S probably damaging Het
Gstt2 A G 10: 75,833,745 probably benign Het
Hmcn2 T A 2: 31,343,102 L221Q probably damaging Het
Hoxa3 T C 6: 52,170,574 probably benign Het
Kctd12b T C X: 153,689,483 D70G probably damaging Het
Kdm7a T A 6: 39,175,386 E125D probably benign Het
Klk1b21 T A 7: 44,106,495 F249L probably benign Het
Mrpl41 T C 2: 24,974,417 D81G possibly damaging Het
Nomo1 T A 7: 46,038,556 L82Q probably damaging Het
Olfr482 G T 7: 108,095,242 F109L probably benign Het
Pex6 A G 17: 46,725,326 probably benign Het
Pi4k2a T A 19: 42,104,979 L253Q probably damaging Het
Prdx6b T A 2: 80,293,146 F100I probably damaging Het
Prr36 G A 8: 4,215,243 P169L probably damaging Het
Ptgfrn T C 3: 101,073,088 E312G probably damaging Het
Rasgrf1 A G 9: 89,991,692 I685V probably benign Het
Setdb1 T C 3: 95,338,853 E586G probably damaging Het
Sez6l2 C A 7: 126,968,216 T841K probably damaging Het
Slc25a17 A T 15: 81,327,326 L163* probably null Het
Slc35f3 A T 8: 126,389,161 I276F probably benign Het
Tcerg1l T A 7: 138,395,060 K149N possibly damaging Het
Tex28 T A X: 74,152,333 K278* probably null Het
Tmprss9 A G 10: 80,897,959 probably benign Het
Tnfaip8l1 A G 17: 56,171,782 K24R probably benign Het
Trim36 T C 18: 46,188,388 probably benign Het
Uba1 C T X: 20,671,365 T274I possibly damaging Het
Ubr2 T C 17: 46,943,409 T1439A probably benign Het
Ubr4 A G 4: 139,418,461 D1523G possibly damaging Het
Uchl4 A T 9: 64,235,506 T90S probably benign Het
Other mutations in Papolg
AlleleSourceChrCoordTypePredicted EffectPPH Score
IGL00987:Papolg APN 11 23876377 missense possibly damaging 0.93
IGL01016:Papolg APN 11 23885570 missense possibly damaging 0.58
IGL01394:Papolg APN 11 23867235 missense probably benign
IGL01786:Papolg APN 11 23874488 missense probably damaging 1.00
IGL02008:Papolg APN 11 23879898 missense probably damaging 1.00
IGL02127:Papolg APN 11 23870870 unclassified probably benign
IGL02329:Papolg APN 11 23891869 missense probably damaging 0.98
IGL02535:Papolg APN 11 23890245 missense probably benign 0.00
IGL02588:Papolg APN 11 23890252 missense probably damaging 1.00
IGL03058:Papolg APN 11 23895029 missense probably benign 0.00
IGL03301:Papolg APN 11 23874503 missense probably benign 0.05
R0124:Papolg UTSW 11 23867535 missense probably benign 0.21
R0369:Papolg UTSW 11 23872425 critical splice donor site probably null
R0454:Papolg UTSW 11 23879868 splice site probably null
R0743:Papolg UTSW 11 23870818 unclassified probably null
R0931:Papolg UTSW 11 23882257 missense probably damaging 0.96
R1856:Papolg UTSW 11 23867379 missense probably benign 0.06
R1940:Papolg UTSW 11 23867279 missense probably benign 0.00
R2239:Papolg UTSW 11 23876378 missense probably damaging 0.99
R3802:Papolg UTSW 11 23876449 missense probably damaging 1.00
R4275:Papolg UTSW 11 23868378 missense probably benign
R4989:Papolg UTSW 11 23873919 splice site probably null
R5074:Papolg UTSW 11 23867331 missense possibly damaging 0.78
R5122:Papolg UTSW 11 23867501 critical splice donor site probably null
R6048:Papolg UTSW 11 23891815 missense probably benign 0.04
R6365:Papolg UTSW 11 23882290 missense probably damaging 1.00
R6577:Papolg UTSW 11 23879857 critical splice donor site probably benign
Posted On2014-01-21