Expasy logo

UniProtKB/Swiss-Prot variant pages

UniProtKB/Swiss-Prot Q13501: Variant p.Asp80Glu

Sequestosome-1
Gene: SQSTM1
Feedback?
Variant information Variant position: help 80 The position of the amino-acid change on the UniProtKB canonical protein sequence.
Type of variant: help LP/P [Disclaimer] The variants are classified into three categories: LP/P, LB/B and US.
  • LP/P: likely pathogenic or pathogenic.
  • LB/B: likely benign or benign.
  • US: uncertain significance

Residue change: help From Aspartate (D) to Glutamate (E) at position 80 (D80E, p.Asp80Glu). Indicates the amino acid change of the variant. The one-letter and three-letter codes for amino acids used in UniProtKB/Swiss-Prot are those adopted by the commission on Biochemical Nomenclature of the IUPAC-IUB.
Physico-chemical properties: help Similar physico-chemical property. Both residues are medium size and acidic. The physico-chemical property of the reference and variant residues and the change implicated.
BLOSUM score: help 2 The score within a Blosum matrix for the corresponding wild-type to variant amino acid change. The log-odds score measures the logarithm for the ratio of the likelihood of two amino acids appearing by chance. The Blosum62 substitution matrix is used. This substitution matrix contains scores for all possible exchanges of one amino acid with another:
  • Lowest score: -4 (low probability of substitution).
  • Highest score: 11 (high probability of substitution).
More information can be found on the following page

Variant description: help In FTDALS3. Any additional useful information about the variant.
Other resources: help Links to websites of interest for the variant.


Sequence information Variant position: help 80 The position of the amino-acid change on the UniProtKB canonical protein sequence.
Protein sequence length: help 440 The length of the canonical sequence.
Location on the sequence: help PGGFQAHYRDEDGDLVAFSS D EELTMAMSYVKDDIFRIYIK The residue change on the sequence. Unless the variant is located at the beginning or at the end of the protein sequence, both residues upstream (20) and downstream (20) of the variant will be shown.
Residue conservation: help The multiple alignment of the region surrounding the variant against various orthologous sequences.
Human                         PGGFQAHYRDEDGDLVAFSSDEELTMAMSYVKDDIFRIYIK

Mouse                         PGGFQAHYRDEDGDLVAFSSDEELTMAMSYVKDDIFRIYIK

Rat                           PGGFQAHYRDEDGDLVAFSSDEELTMAMSYVKDDIFRIYIK

Sequence annotation in neighborhood: help The regions or sites of interest surrounding the variant. In general the features listed are posttranslational modifications, binding sites, enzyme active sites, local secondary structure or other characteristics reported in the cited references. The "Sequence annotation in neighborhood" lines have a fixed format:
  • Type: the type of sequence feature.
  • Positions: endpoints of the sequence feature.
  • Description: contains additional information about the feature.
TypePositionsDescription
Chain 2 – 440 Sequestosome-1
Domain 3 – 102 PB1
Region 43 – 107 Interaction with PRKCZ and dimerization
Region 50 – 80 Interaction with PAWR
Cross 91 – 91 Glycyl lysine isopeptide (Lys-Gly) (interchain with G-Cter in ubiquitin)
Alternative sequence 1 – 84 Missing. In isoform 2.
Mutagenesis 67 – 67 Y -> A. No effect on interaction with PRKCZ.
Mutagenesis 69 – 69 D -> A. No effect on interactions with PRKCZ, PRKCI and NBR1. Loss of localization in cytoplasmic inclusion bodies. Loss of dimerization; when associated with A-7.
Mutagenesis 71 – 71 D -> A. No effect on interaction with PRKCI.
Mutagenesis 73 – 73 D -> A. No effect on interactions with PRKCZ and PRKCI.
Mutagenesis 80 – 80 D -> A. No effect on interaction with PRKCI.
Mutagenesis 82 – 82 E -> A. No effect on interaction with PRKCI.
Helix 80 – 88



Literature citations
Rare mutations in SQSTM1 modify susceptibility to frontotemporal lobar degeneration.
van der Zee J.; Van Langenhove T.; Kovacs G.G.; Dillen L.; Deschamps W.; Engelborghs S.; Matej R.; Vandenbulcke M.; Sieben A.; Dermaut B.; Smets K.; Van Damme P.; Merlin C.; Laureys A.; Van Den Broeck M.; Mattheijssens M.; Peeters K.; Benussi L.; Binetti G.; Ghidoni R.; Borroni B.; Padovani A.; Archetti S.; Pastor P.; Razquin C.; Ortega-Cubero S.; Hernandez I.; Boada M.; Ruiz A.; de Mendonca A.; Miltenberger-Miltenyi G.; do Couto F.S.; Sorbi S.; Nacmias B.; Bagnoli S.; Graff C.; Chiang H.H.; Thonberg H.; Perneczky R.; Diehl-Schmid J.; Alexopoulos P.; Frisoni G.B.; Bonvicini C.; Synofzik M.; Maetzler W.; vom Hagen J.M.; Schoels L.; Haack T.B.; Strom T.M.; Prokisch H.; Dols-Icardo O.; Clarimon J.; Lleo A.; Santana I.; Almeida M.R.; Santiago B.; Heneka M.T.; Jessen F.; Ramirez A.; Sanchez-Valle R.; Llado A.; Gelpi E.; Sarafov S.; Tournev I.; Jordanova A.; Parobkova E.; Fabrizi G.M.; Testi S.; Salmon E.; Stroebel T.; Santens P.; Robberecht W.; De Jonghe P.; Martin J.J.; Cras P.; Vandenberghe R.; De Deyn P.P.; Cruts M.; Sleegers K.; Van Broeckhoven C.;
Acta Neuropathol. 128:397-410(2014)
Cited for: INVOLVEMENT IN FTDALS3; VARIANTS FTDALS3 VAL-16; VAL-33; GLU-80; MET-90; TRP-107; ASN-129; CYS-212; VAL-219; PRO-226; LEU-228; THR-232; LYS-238 DEL; ASN-258; CYS-321; GLY-329; LEU-348; LEU-387; LEU-392 AND PRO-430; VARIANTS VAL-17; ARG-103; GLN-107; TYR-108; HIS-110; VAL-117; SER-118; GLY-119; SER-125; CYS-139; ILE-153; LEU-180; HIS-217; GLU-238; 265-SER-ARG-266 DELINS SER-ARG; ASP-274; ILE-278; VAL-308; LYS-319; GLY-334 DEL; THR-349 AND LEU-439;
Disclaimer: Any medical or genetic information present in this entry is provided for research, educational and informational purposes only. They are not in any way intended to be used as a substitute for professional medical advice, diagnostic, treatment or care.