| Entry |
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| Symbol |
PSMD1, P112, Rpn2, S1
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| Name |
(RefSeq) proteasome 26S subunit, non-ATPase 1
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| KO |
| K03032 | 26S proteasome regulatory subunit N2 |
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| Organism |
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| Pathway |
| hsa05022 | Pathways of neurodegeneration - multiple diseases |
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| Network |
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| Element |
| N01029 | 26S proteasome-mediated protein degradation |
| N01030 | Mutation-caused aberrant SNCA to 26S proteasome-mediated protein degradation |
| N01060 | Mutation-caused aberrant Abeta to 26S proteasome-mediated protein degradation |
| N01061 | Mutation-caused aberrant Htt to 26S proteasome-mediated protein degradation |
| N01144 | Mutation-caused aberrant SOD1 to 26S proteasome-mediated protein degradation |
| N01145 | Mutation-inactivated VCP to 26S proteasome-mediated protein degradation |
| N01146 | Mutation-inactivated UBQLN2 to 26S proteasome-mediated protein degradation |
| N01197 | Scrapie conformation PrPSc to 26S proteasome-mediated protein degradation |
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| Brite |
KEGG Orthology (KO) [BR:hsa00001]
09120 Genetic Information Processing
09123 Folding, sorting and degradation
03050 Proteasome
5707 (PSMD1)
09160 Human Diseases
09172 Infectious disease: viral
05169 Epstein-Barr virus infection
5707 (PSMD1)
09164 Neurodegenerative disease
05010 Alzheimer disease
5707 (PSMD1)
05012 Parkinson disease
5707 (PSMD1)
05014 Amyotrophic lateral sclerosis
5707 (PSMD1)
05016 Huntington disease
5707 (PSMD1)
05017 Spinocerebellar ataxia
5707 (PSMD1)
05020 Prion disease
5707 (PSMD1)
05022 Pathways of neurodegeneration - multiple diseases
5707 (PSMD1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03051 Proteasome [BR:hsa03051]
5707 (PSMD1)
Proteasome [BR:hsa03051]
Eukaryotic proteasome
Regulatory particles
PA700 (19S proteasome)
non-ATPase subunits
5707 (PSMD1)
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| SSDB |
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| Motif |
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| Other DBs |
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| Structure |
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| LinkDB |
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| Position |
2:231056867..231172827
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| AA seq |
953 aa
MITSAAGIISLLDEDEPQLKEFALHKLNAVVNDFWAEISESVDKIEVLYEDEGFRSRQFA
ALVASKVFYHLGAFEESLNYALGAGDLFNVNDNSEYVETIIAKCIDHYTKQCVENADLPE
GEKKPIDQRLEGIVNKMFQRCLDDHKYKQAIGIALETRRLDVFEKTILESNDVPGMLAYS
LKLCMSLMQNKQFRNKVLRVLVKIYMNLEKPDFINVCQCLIFLDDPQAVSDILEKLVKED
NLLMAYQICFDLYESASQQFLSSVIQNLRTVGTPIASVPGSTNTGTVPGSEKDSDSMETE
EKTSSAFVGKTPEASPEPKDQTLKMIKILSGEMAIELHLQFLIRNNNTDLMILKNTKDAV
RNSVCHTATVIANSFMHCGTTSDQFLRDNLEWLARATNWAKFTATASLGVIHKGHEKEAL
QLMATYLPKDTSPGSAYQEGGGLYALGLIHANHGGDIIDYLLNQLKNASNDIVRHGGSLG
LGLAAMGTARQDVYDLLKTNLYQDDAVTGEAAGLALGLVMLGSKNAQAIEDMVGYAQETQ
HEKILRGLAVGIALVMYGRMEEADALIESLCRDKDPILRRSGMYTVAMAYCGSGNNKAIR
RLLHVAVSDVNDDVRRAAVESLGFILFRTPEQCPSVVSLLSESYNPHVRYGAAMALGICC
AGTGNKEAINLLEPMTNDPVNYVRQGALIASALIMIQQTEITCPKVNQFRQLYSKVINDK
HDDVMAKFGAILAQGILDAGGHNVTISLQSRTGHTHMPSVVGVLVFTQFWFWFPLSHFLS
LAYTPTCVIGLNKDLKMPKVQYKSNCKPSTFAYPAPLEVPKEKEKEKVSTAVLSITAKAK
KKEKEKEKKEEEKMEVDEAEKKEEKEKKKEPEPNFQLLDNPARVMPAQLKVLTMPETCRY
QPFKPLSIGGIIILKDTSEDIEELVEPVAAHGPKIEEEEQEPEPPEPFEYIDD |
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| NT seq |
2862 nt +upstreamnt +downstreamnt
atgatcacctcggccgctggaattatttctcttctggatgaagatgaaccacagcttaag
gaatttgcactacacaaattgaatgcagttgttaatgacttctgggcagaaatttccgag
tccgtagacaaaatagaggttttatacgaagatgaaggtttccggagtcggcagtttgca
gccttagtggcatctaaagtattttatcacctgggggcttttgaggagtctctgaattat
gctcttggagcaggggacctcttcaatgtcaatgataactctgaatatgtggaaactatt
atagcaaaatgcattgatcactacaccaaacaatgtgtggaaaatgcagatttgcctgaa
ggagaaaaaaaaccaattgaccagagattggaaggcatcgtaaataaaatgttccagcga
tgtctagatgatcacaagtataaacaggctattggcattgctctggagacacgaagactg
gacgtctttgaaaagaccatactggagtcgaatgatgtcccaggaatgttagcttatagc
cttaagctctgcatgtctttaatgcagaataaacagtttcggaataaagtactaagagtt
ctagttaaaatctacatgaacttggagaaacctgatttcatcaatgtttgtcagtgctta
attttcttagatgatcctcaggctgtgagtgatatcttagagaaactggtaaaggaagac
aacctcctgatggcatatcagatttgttttgatttgtatgaaagtgctagccagcagttt
ttgtcatctgtaatccagaatcttcgaactgttggcacccctattgcttctgtgcctgga
tccactaatacgggtactgttccgggatcagagaaagacagtgactcgatggaaacagaa
gaaaagacaagcagtgcatttgtaggaaagacaccagaagccagtccagagcctaaggac
cagactttgaaaatgattaaaattttaagtggtgaaatggctattgagttacatctgcag
ttcttaatacgaaacaataatacagacctcatgattctaaaaaacacaaaggatgcagta
cggaattctgtatgtcatactgcaaccgttatagcaaactcttttatgcactgtgggaca
accagtgaccagtttcttagagataatttggaatggttagccagagccactaactgggca
aaatttactgctacagccagtttgggtgtaattcataagggtcatgaaaaagaagcatta
cagttaatggcaacataccttcccaaggatacttctccaggatcagcctatcaggaaggt
ggaggtctctatgcactaggtcttattcatgccaatcatggtggtgatataattgactat
ctgcttaatcagcttaagaacgccagcaatgatatcgttagacacggtggcagtctgggc
cttggtttggcagccatgggaactgcacgtcaagatgtttatgatttgctaaaaacaaac
ctttatcaggatgatgcagtaacaggggaagcagctggcctggccctaggtttggttatg
ttgggctctaaaaatgctcaggctattgaggacatggttggttatgcacaagaaactcaa
catgagaagattctgcgtggtcttgcagttggcatagctttagtaatgtatgggaggatg
gaagaggctgatgctctcattgaatctctctgtcgtgacaaggacccaattcttcgaagg
tctggaatgtatactgtagccatggcttattgtggctctggtaacaacaaagcaattcga
cgcctgctacatgttgctgtaagtgatgttaatgatgatgtcaggagggcagcagtagaa
tcacttgggttcattctattcagaacccctgaacagtgcccaagtgttgtctctttgttg
tcagagagttacaaccctcatgtgcgctacggagctgcaatggccttggggatatgctgt
gctggtacaggaaacaaggaagccattaatttgctagaaccaatgacaaacgaccccgtg
aactacgtgaggcaaggggcactcatagcttcagctctcatcatgatccagcagactgaa
atcacttgtccaaaggtgaatcagttcagacagctgtattccaaagtcatcaatgataag
catgatgatgtcatggccaagtttggcgctattctggcccagggcatactggatgcaggt
ggtcataatgtcacaatctccttgcagtccaggactgggcatactcatatgccttctgtg
gttggcgtccttgtatttacccagttttggttctggtttcctctttcacacttcctgtca
ttggcttatacccctacctgtgtcattggccttaacaaggacttaaagatgccgaaagtt
cagtataaatcgaactgtaaaccatccacatttgcatatcctgcccctctggaagtacca
aaagaaaaagaaaaggaaaaggtttctactgctgtattatctataactgccaaggctaaa
aagaaggaaaaagaaaaggaaaaaaaggaggaggagaaaatggaagtggatgaggcagag
aaaaaggaggaaaaagagaagaaaaaagaacctgagccaaacttccagttattggataac
ccagcccgagttatgcctgcccagcttaaggtcctaaccatgccggagacctgtagatac
cagcctttcaaaccactctctattggaggcatcatcattctgaaggataccagtgaagac
attgaggagctggtggaacctgtggcagcacatggcccaaaaatcgaggaggaggaacaa
gagccagaacccccagaaccatttgagtatattgatgattaa |
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