NCBI Summary
The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments.
Protein
Protein (NP_001615)
Beta/gamma crystallin domain-containing protein 1
Beta/gamma crystallin domain-containing protein 1 (Absent in melanoma 1 protein)
CRYBG1
crystallin beta-gamma domain containing 1
Undefined
Very low evidence
Ricin-like
Undefined
b-trefoil
Uncharacterised
NP_001615
202
Q9Y4K1
Undefined
Q9Y4K1
Undefined
Undefined
neXtProt, PFAM, InterPro
Protein sequence and protein families (fasta) (1723 amino acids) Download
MEKRSSGRRSGRRRGSQKSTDSPGADAELPESAARDDAVFDDEVAPNAASDNASAEKKVKSPRAALDGGVASAASPESKPSPGTKGQLRGESDRSKQPPPASSPTKRKGRSRALEAVPAPPASGPRAPAKESPPKRVPDPSPVTKGTAAESGEEAARAIPRELPVKSSSLLPEIKPEHKRGPLPNHFNGRAEGGRSRELGRAAGAPGASDADGLKPRNHFGVGRSTVTTKVTLPAKPKHVELNLKTPKNLDSLGNEHNPFSQPVHKGNTATKISLFENKRTNSSPRHTDIRGQRNTPASSKTFVGRAKLNLAKKAKEMEQPEKKVMPNSPQNGVLVKETAIETKVTVSEEEILPATRGMNGDSSENQALGPQPNQDDKADVQTDAGCLSEPVASALIPVKDHKLLEKEDSEAADSKSLVLENVTDTAQDIPTTVDTKDLPPTAMPKPQHTFSDSQSPAESSPGPSLSLSAPAPGDVPKDTCVQSPISSFPCTDLKVSENHKGCVLPVSRQNNEKMPLLELGGETTPPLSTERSPEAVGSECPSRVLVQVRSFVLPVESTQDVSSQVIPESSEVREVQLPTCHSNEPEVVSVASCAPPQEEVLGNEHSHCTAELAAKSGPQVIPPASEKTLPIQAQSQGSRTPLMAESSPTNSPSSGNHLATPQRPDQTVTNGQDSPASLLNISAGSDDSVFDSSSDMEKFTEIIKQMDSAVCMPMKRKKARMPNSPAPHFAMPPIHEDHLEKVFDPKVFTFGLGKKKESQPEMSPALHLMQNLDTKSKLRPKRASAEQSVLFKSLHTNTNGNSEPLVMPEINDKENRDVTNGGIKRSRLEKSALFSSLLSSLPQDKIFSPSVTSVNTMTTAFSTSQNGSLSQSSVSQPTTEGAPPCGLNKEQSNLLPDNSLKVFNFNSSSTSHSSLKSPSHMEKYPQKEKTKEDLDSRSNLHLPETKFSELSKLKNDDMEKANHIESVIKSNLPNCANSDTDFMGLFKSSRYDPSISFSGMSLSDTMTLRGSVQNKLNPRPGKVVIYSEPDVSEKCIEVFSDIQDCSSWSLSPVILIKVVRGCWILYEQPNFEGHSIPLEEGELELSGLWGIEDILERHEEAESDKPVVIGSIRHVVQDYRVSHIDLFTEPEGLGILSSYFDDTEEMQGFGVMQKTCSMKVHWGTWLIYEEPGFQGVPFILEPGEYPDLSFWDTEEAYIGSMRPLKMGGRKVEFPTDPKVVVYEKPFFEGKCVELETGMCSFVMEGGETEEATGDDHLPFTSVGSMKVLRGIWVAYEKPGFTGHQYLLEEGEYRDWKAWGGYNGELQSLRPILGDFSNAHMIMYSEKNFGSKGSSIDVLGIVANLKETGYGVKTQSINVLSGVWVAYENPDFTGEQYILDKGFYTSFEDWGGKNCKISSVQPICLDSFTGPRRRNQIHLFSEPQFQGHSQSFEETTSQIDDSFSTKSCRVSGGSWVVYDGENFTGNQYVLEEGHYPCLSAMGCPPGATFKSLRFIDVEFSEPTIILFEREDFKGKKIELNAETVNLRSLGFNTQIRSVQVIGGIWVTYEYGSYRGRQFLLSPAEVPNWYEFSGCRQIGSLRPFVQKRIYFRLRNKATGLFMSTNGNLEDLKLLRIQVMEDVGADDQIWIYQEGCIKCRIAEDCCLTIVGSLVTSGSKLGLALDQNADSQFWSLKSDGRIYSKLKPNLVLDIKGGTQYDQNHIILNTVSKEKFTQVWEAMVLYT
Mol* PDB structure viewer
Structural models
AlphaFold v2: AF-Q9Y4K1-F1Download
Model Confidence:
  •    Very high (pLDDT > 90)
  •    Confident (90 > pLDDT > 70)
  •    Low (70 > pLDDT > 50)
  •    Very low (pLDDT < 50)

  AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. Some regions with low pLDDT may be unstructured in isolation.

AlphaFold_v2 structural model assessment through SWISS-MODEL tools.

SWISS-MODEL structural models
SWISS-MODEL structural model
Modeller structural model (Homology modelling pipeline), Error: [ err > 2 Å]Download
The location of the lectin domain structural model is: 1586-1719
We infer [ err > 2 Å] as the interval of error of this structural model.
Template: 1XHB chain: A, O08912, NP_001153876.1, sequence identity: 17.2%, coverage: 89.6%, location in sequence: 95-553, (95-553 in PDB).
Show the alignment used for the construction of the structural model, Download.
Show the plot of DOPE energy score, Download.
Ligand
Glycan ligands from structural data
No crystal structures of complexes with glycan ligand.
Expression
Human Protein Atlas
GeneCards
mRNA expression in normal human tissues for CRYBG1 Gene
ProteomicsDB
References
NCBI References (10 PubMed Identifiers)
  • Single-molecule Force Spectroscopy Reveals the Calcium Dependence of the Alternative Conformations in the Native State of a betagamma-Crystallin Protein. [27378818]
  • DNMT1 and AIM1 Imprinting in human placenta revealed through a genome-wide screen for allele-specific DNA methylation. [24094292]
  • AIM1 promoter hypermethylation as a predictor of decreased risk of recurrence following radical prostatectomy. [22127895]
  • AIM1 and LINE-1 epigenetic aberrations in tumor and serum relate to melanoma progression and disease outcome. [22402438]
  • High-throughput transcriptomic and RNAi analysis identifies AIM1, ERGIC1, TMED3 and TPX2 as potential drug targets in prostate cancer. [22761906]
  • The DNA sequence and analysis of human chromosome 6. [14574404]
  • Stability, homodimerization, and calcium-binding properties of a single, variant betagamma-crystallin domain of the protein absent in melanoma 1 (AIM1). [12693952]
  • AIM1, a novel non-lens member of the betagamma-crystallin superfamily, is associated with the control of tumorigenicity in human malignant melanoma. [9096375]
  • Isolation and characterization of genes associated with chromosome-6 mediated tumor suppression in human malignant melanoma. [8700511]
  • Loss of heterozygosity for loci on the long arm of chromosome 6 in human malignant melanoma. [1680551]
UniProt Main References (8 PubMed Identifiers)
  • Complete sequencing and characterization of 21,243 full-length human cDNAs. [14702039]
  • A quantitative atlas of mitotic phosphorylation. [18669648]
  • Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions. [19690332]
  • Initial characterization of the human central proteome. [21269460]
  • System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation. [21406692]
  • Toward a comprehensive characterization of a human cancer cell phosphoproteome. [23186163]
  • An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. [24275569]
  • Exploring the limits of sequence and structure in a variant betagamma-crystallin domain of the protein absent in melanoma-1 (AIM1). [18582473]
All isoforms of this gene containing a lectin domain
NP_001615.2, NP_001358171.1
RNA
RNA (Transcript ID: NM_001624.4)
NM_001624.4
crystallin beta-gamma domain containing 1, transcript variant 2
All isoforms of CRYBG1 containing a lectin domain
488..5659 (or 106512342.. 106568566)
106511855.. 106572017
NCBI Matured mRNA sequence 9110 NTPDownload 
m7G-5')ppp(5'-AGAUGCCACCACCACUGCCAAGCAGCUGCAUUCCUCGCCGGGAAAUUCCUCCAGGCAAGAGAACGCAGAGACGCCCGCCCGCAGUCCGGGGGAGGACGCUUCACCAGGUGCUGGCCACGAACAGGAGGCUUUCCUGGGUGUGAGGGGUGCGCCAGGGUCGCCCACCCAGGAGCGGCCCGCGGGAGGACUAGGCGAGGCCCCUAACGGAGCCCCCAGUGUGUGUGCCGAAGAAGGCUCCCUGGGGCCCCGCAACGCCCGCAGCCAGCCCCCCAAGGGCGCGUCUGAUUUGCCAGGUGAGCCUCCGGCCGAGGGCGCAGCGCACACGGCCAGCUCCGCGCAGGCAGACUGCACAGCCCGCCCCAAGGGUCACGCCCACCCUGCUAAGGUGCUAACUUUGGACAUCUACUUGAGUAAGACUGAGGGGGCACAAGUGGACGAGCCGGUCGUGAUUACUCCCAGAGCGGAAGAUUGCGGUGACUGGGACGACAUGGAGAAGAGGUCCAGCGGCCGUAGGUCGGGGAGGCGGAGGGGGUCGCAGAAAUCCACCGACUCCCCCGGCGCGGACGCCGAGCUCCCUGAGAGCGCUGCCAGGGACGACGCGGUGUUCGACGACGAGGUGGCGCCAAACGCGGCCAGCGAUAACGCCUCGGCGGAAAAGAAAGUGAAAUCUCCGCGGGCAGCCCUCGACGGGGGCGUUGCCUCCGCUGCGAGCCCAGAGUCCAAGCCCAGCCCCGGUACCAAAGGGCAGCUCCGAGGGGAGUCGGACCGGAGCAAACAGCCACCCCCGGCUUCGUCCCCCACGAAGAGGAAGGGCAGGAGCCGUGCCCUCGAGGCCGUGCCCGCCCCGCCCGCCAGCGGCCCCCGGGCUCCCGCCAAGGAGUCCCCACCCAAGAGGGUGCCCGAUCCCAGCCCAGUCACCAAGGGCACUGCGGCCGAGAGCGGGGAGGAGGCGGCGCGGGCCAUCCCCCGCGAGCUCCCGGUCAAGAGCAGCUCGCUGCUGCCGGAGAUCAAGCCCGAGCACAAGAGGGGCCCGCUCCCCAACCACUUCAACGGCCGGGCAGAGGGAGGUCGAAGCAGAGAGCUGGGCAGAGCGGCCGGAGCGCCUGGAGCUUCUGACGCCGACGGCUUGAAGCCCAGGAACCAUUUCGGCGUGGGCAGGUCGACAGUGACCACUAAAGUGACCCUCCCUGCCAAGCCCAAACAUGUGGAACUAAAUCUUAAAACCCCUAAGAAUCUUGACAGUUUGGGAAAUGAGCACAAUCCAUUUAGCCAGCCAGUUCACAAAGGCAACACUGCCACCAAAAUCUCCUUAUUUGAAAACAAACGGACAAACAGUAGCCCAAGACACACUGACAUUCGAGGCCAAAGGAAUACUCCUGCCUCUAGUAAAACGUUUGUUGGGAGGGCAAAGCUGAAUUUAGCCAAAAAAGCCAAAGAAAUGGAGCAACCUGAAAAGAAAGUAAUGCCAAACAGUCCCCAGAAUGGUGUGCUGGUUAAGGAAACUGCUAUAGAAACCAAAGUUACCGUCUCGGAAGAAGAGAUUCUGCCAGCAACCAGAGGAAUGAAUGGAGACUCUUCUGAGAAUCAAGCUCUUGGUCCUCAGCCUAACCAAGAUGAUAAAGCAGAUGUACAAACAGAUGCUGGCUGCCUUUCAGAACCAGUGGCUUCUGCUCUGAUUCCUGUCAAGGAUCAUAAGCUCUUAGAGAAGGAGGACUCAGAGGCUGCAGACAGCAAAAGCCUUGUACUUGAAAAUGUAACCGAUACAGCACAAGACAUCCCCACCACUGUGGAUACCAAAGAUUUACCUCCAACGGCCAUGCCAAAGCCACAGCAUACAUUUUCUGACUCACAGUCCCCUGCUGAGUCAUCUCCUGGGCCUUCUCUUUCACUGUCUGCACCCGCUCCUGGGGAUGUUCCCAAAGACACAUGUGUUCAAUCACCCAUAAGCAGUUUCCCAUGCACUGAUCUAAAAGUGUCAGAAAACCAUAAAGGAUGUGUUUUGCCUGUGUCUCGUCAGAACAAUGAGAAAAUGCCACUUUUAGAACUUGGAGGAGAAACAACCCCUCCUUUGUCCACAGAGCGUAGUCCAGAAGCUGUGGGAAGUGAGUGUCCAUCCAGAGUCCUCGUCCAGGUCAGGUCCUUCGUGCUCCCCGUGGAGAGCACCCAGGAUGUGAGCUCCCAGGUCAUCCCAGAGAGCUCUGAAGUUAGAGAAGUGCAGUUGCCAACUUGUCACAGUAAUGAACCUGAAGUGGUUUCCGUUGCAAGUUGUGCUCCCCCACAAGAGGAAGUACUGGGCAAUGAACACUCUCAUUGCACAGCAGAGCUCGCGGCAAAAUCUGGCCCACAAGUCAUACCGCCAGCAUCAGAGAAAACUCUGCCUAUUCAGGCUCAAAGUCAGGGCAGCAGAACACCCCUGAUGGCUGAAUCCAGUCCCACCAACUCUCCCAGCAGCGGAAAUCACUUAGCCACUCCUCAAAGGCCAGAUCAGACUGUUACAAAUGGCCAGGAUAGCCCUGCCAGCCUUUUGAACAUUUCUGCUGGUAGUGAUGAUAGUGUAUUUGAUUCUUCUUCUGAUAUGGAAAAAUUCACUGAAAUUAUAAAACAGAUGGAUAGCGCAGUUUGUAUGCCCAUGAAAAGAAAGAAGGCCAGGAUGCCAAACUCUCCUGCUCCUCACUUUGCCAUGCCUCCUAUUCACGAAGACCAUUUAGAAAAGGUGUUUGAUCCCAAAGUGUUUACCUUUGGUUUGGGGAAGAAGAAGGAAAGUCAGCCAGAAAUGUCACCGGCUUUACAUUUGAUGCAGAACCUUGACACAAAAUCCAAACUGAGACCCAAACGUGCAUCUGCUGAACAGAGCGUCCUCUUCAAGUCCCUGCACACCAACACUAAUGGGAACAGUGAGCCUCUGGUGAUGCCGGAAAUCAAUGACAAAGAGAACAGGGACGUCACAAAUGGUGGCAUUAAGAGAUCGAGACUAGAAAAAAGUGCACUUUUCUCAAGCUUGUUAUCUUCUUUACCACAAGACAAAAUCUUUUCUCCUUCUGUGACAUCAGUCAACACUAUGACCACGGCUUUCAGUACUUCUCAGAACGGUUCCCUAUCUCAGUCUUCAGUGUCACAGCCCACGACUGAGGGUGCCCCGCCCUGUGGUUUGAACAAAGAACAGUCAAAUCUUCUGCCCGACAACUCCUUAAAGGUCUUCAAUUUCAACUCGUCAAGUACAUCACACUCCAGUUUGAAAAGUCCAAGCCACAUGGAAAAAUACCCGCAAAAAGAGAAAACCAAAGAAGAUCUGGAUUCACGAAGCAACCUACACUUGCCAGAAACUAAAUUUUCUGAAUUGUCAAAACUGAAGAAUGAUGAUAUGGAAAAGGCUAAUCAUAUUGAAAGUGUUAUUAAAUCAAACUUGCCAAACUGUGCAAACAGUGACACCGACUUCAUGGGUCUUUUCAAAUCAAGCCGGUAUGACCCAAGCAUUUCUUUUUCUGGAAUGUCAUUAUCAGACACAAUGACACUUAGAGGAAGUGUCCAAAAUAAACUCAAUCCCCGACCUGGAAAGGUAGUGAUAUAUAGUGAACCCGACGUCUCUGAGAAGUGCAUUGAAGUUUUCAGUGACAUUCAGGAUUGCAGUUCUUGGAGCCUCUCUCCAGUGAUACUCAUAAAAGUUGUUAGAGGAUGUUGGAUUUUGUAUGAGCAACCAAAUUUUGAAGGGCACUCCAUCCCCUUAGAAGAAGGAGAAUUGGAACUCUCUGGUCUCUGGGGUAUAGAAGACAUUUUGGAAAGGCACGAAGAAGCAGAGUCUGAUAAGCCAGUGGUGAUUGGUUCCAUCAGACAUGUGGUUCAGGAUUACAGAGUUAGUCACAUUGACUUAUUUACUGAACCAGAAGGGUUAGGAAUCCUAAGUUCCUACUUUGAUGAUACUGAAGAAAUGCAGGGAUUUGGUGUAAUGCAGAAGACUUGUUCCAUGAAAGUACAUUGGGGCACGUGGCUGAUUUAUGAAGAACCUGGAUUUCAGGGUGUUCCUUUCAUCCUGGAACCUGGUGAAUACCCUGACUUGUCCUUCUGGGAUACAGAAGAAGCGUACAUUGGAUCCAUGCGGCCUCUGAAAAUGGGUGGCCGUAAAGUUGAAUUCCCUACAGAUCCAAAGGUAGUUGUUUAUGAAAAGCCUUUCUUUGAAGGAAAAUGUGUGGAACUAGAAACAGGAAUGUGUAGUUUUGUCAUGGAGGGAGGUGAAACAGAAGAGGCGACUGGAGACGAUCAUUUGCCGUUUACGUCAGUGGGGUCUAUGAAAGUUCUAAGAGGCAUUUGGGUUGCAUAUGAGAAACCUGGAUUUACCGGUCAUCAGUAUUUGCUAGAAGAAGGAGAAUACAGGGACUGGAAAGCCUGGGGAGGUUACAAUGGAGAGCUUCAGUCUUUACGACCUAUAUUAGGUGAUUUUUCAAAUGCUCACAUGAUAAUGUACAGUGAAAAAAACUUUGGAUCCAAAGGUUCCAGUAUUGAUGUAUUGGGAAUUGUUGCUAAUUUAAAGGAGACUGGAUAUGGAGUGAAGACACAGUCUAUUAAUGUACUGAGUGGAGUAUGGGUAGCCUAUGAAAAUCCUGACUUCACAGGAGAACAGUAUAUACUGGAUAAAGGAUUUUAUACCAGUUUUGAGGACUGGGGAGGCAAAAAUUGUAAGAUCUCUUCUGUUCAACCUAUAUGUUUGGAUUCUUUCACUGGCCCAAGGAGACGAAAUCAGAUUCACUUGUUUUCAGAACCACAGUUUCAAGGUCACAGUCAAAGUUUUGAAGAAACAACAAGUCAAAUUGAUGAUUCAUUUUCUACCAAGUCUUGCAGAGUUUCAGGAGGCAGCUGGGUUGUAUAUGAUGGAGAAAAUUUCACUGGUAAUCAAUACGUGUUGGAAGAAGGCCAUUAUCCUUGUCUGUCUGCAAUGGGAUGCCCGCCUGGAGCAACUUUCAAGUCUCUUCGUUUUAUAGAUGUUGAAUUUUCUGAACCAACAAUUAUUCUCUUUGAAAGAGAAGACUUCAAAGGAAAAAAGAUUGAACUUAAUGCAGAAACUGUCAAUCUCCGAUCCCUGGGAUUCAACACACAAAUACGCUCUGUUCAGGUUAUUGGUGGCAUAUGGGUUACUUAUGAAUAUGGCAGUUACAGAGGGCGACAGUUCCUAUUGUCACCUGCAGAAGUACCUAAUUGGUAUGAAUUCAGUGGCUGUCGCCAAAUAGGUUCUCUACGACCUUUUGUUCAGAAGCGAAUUUAUUUCAGACUUCGAAACAAAGCAACAGGGUUAUUCAUGUCAACCAAUGGAAACUUAGAGGAUCUGAAGCUUCUGAGGAUACAGGUCAUGGAGGAUGUCGGGGCCGAUGAUCAGAUUUGGAUCUAUCAAGAAGGAUGUAUCAAAUGCAGGAUAGCAGAAGACUGCUGCCUGACGAUUGUGGGCAGCCUGGUAACAUCUGGCUCCAAGCUAGGCCUGGCCCUGGACCAGAAUGCUGACAGCCAGUUCUGGAGCUUGAAGUCCGAUGGCAGGAUUUACAGCAAGUUGAAGCCAAAUUUAGUUUUAGACAUUAAAGGGGGCACACAGUAUGAUCAAAAUCACAUUAUCCUCAACACUGUCAGCAAAGAGAAGUUUACACAAGUGUGGGAAGCCAUGGUCCUAUAUACCUGAACAAAGAAGGAAGAAGAAUCUUCUGGAGGUCCUUCCAGCCACCUUAUUUCUUAAAAAGGACAAUGCUGAUGGAAGACCAGACUGGAAAGUGGAUCGACUCCUCCUUCAUUGAUUCUAAAUUCAACCUUAAAUCAUGCUGCCAUGACUCAGAGAACUUACUCAUCGUUUCAAAAGACUAUCAUAGCUUUAAACCAAUAAUUUGUCCUCCUUUCAUUUCUUGCCUUUCAUUUUUGGUAGCUGCUUAAACAGGUUGCCUAAUUAGCAGCUUUUGGGUGAUUUUGUAAAAUGUUAUAUCAAGAUUUCAAGACUGUGUACAUUUUAAAUUAUUUCCAAAGAUAGUGACAGGAGAGAACUGGAACAAAUUUACCAACUUUGUGGACCUACAAAGCCCUUACACUUUAAAGGGUAAGACAAAGGCUUAAGUUUGAAAGGUAGAGAACUGUUUAGCAUCUGAGAAGAAAUACUUUAUUAGGCCUGUAAUUUUGGUUCUUGGCCUUAAACACUUUCUGGAACCUUUAAAUAUGCUGCAUAGCACAAUGGGAAAGCCUUAGGUAUUCACACAUUUAAGGAACUCUAAACAAAAUACUAUUUUCCUUUAGUUCAUAUUAAAAAUUAAUACAUUUUAAAAAUUUAAUGUCAAAGUCUGGUAACAUUUGUUAGUAGGAUUUGAGUUAUUAUUUUUUGAGACAGGAUCUCAGGCUGGAGUGCAGUGGCACAAUCACGGCUCACUGCAGCCUCUACCUCCCCAGGCUCAGGUGAUCCUCCCACCUCAGCCUCCCAAGUAGCUGGGACUAUAGGCACACAUCACCAAGCCCAGCCAAAUUUUGUUUUUUUUUUGUAGAGAUGGGGUUUCAUCACGUUGCCCAGGCUGAUCUCGAACCUCUGGGCUCAAGCAAUUCACUCGCCUCGGCCUCCCAAAAUGCUGGGAUUACAGGCCUGAGCCACUGCGCCCAGCCAGGAUUUGAAUUAUUUUAACUCAUCCAUGGGCUGCCCUAGAAUGUCACAAAUGAGGGUUGUUUAAUGCCUUUCUUAUAGCUGCUACUGGAACACUAUUAUGACCUAAUUUAUGAGCCAUCCUUACUCAUCUACAAGUGCUGAAGCAAUGUUACAUACUUUUUUGCUAAACUCAGAUUUUUUAGCCUAAUUUCUUGUCCUCCUAUCCACCUGCAUCCACACAUGGCCUGCAUGGGGCUGCCUUCCCUGCAGUGUUCUGCAGCCAUGCUUCAGGGUAUAGCUGUUGGUGGACAGCCUCAGGUCUUGGGGGCACUAUAGCCACUAAACGAGGUGUGAAAGGCUCAAGAGGAUGACCAGCAAUUAAUUAUCCCCAGAAAGUGAAGGAAAAGAGACCUUUAGGGAUGUUGCUGGUCAAGUCUUGAUUUGACCGGAGUCAAAUCAAUCUUCAAGCAAUCUUGGAAUCCUCAACUGCAGUAAGCAUUUCAAAAUGCAAACAAACUGCUUAACAACUGACAAGACACCAGCCCAUACGCUGCUCUUCCAACAGUGGGUUCUAGCUUUGAACAAAAGUGCUAAACAUUUCCUUGAAUAUAUUCUUCCUCUUUUUGUCCUCAUCACUCAAUACUGGUGCUCUUGUCACAGGUAGAACAGCUUGUUUCUUUUCCAUCUAUUCAAGUGUGUUUCUAAUUCUAAAAUGCUGAUCUUCUCUGGAGUCUAUGGUAGGCAAUUAUGGUCACUGGAAUAGUUUGUCUUGUUUUAAAAUAUUAUUGGUGCAUGUACAACAGCAUCCAACAUAUCUGUCUUGUUCCUAGAUAUAUAGCUCUGAUUUUAGGCCUUUUGUGCAUACCAUUACAAUAUGGUGGGGUAAGACAUUCUACAGUAGCCUGUGCUGAACUGAUCUCUUAAAUAAACUUGCUUCUGGUUAACUAUGUUGAUGAAAUCUGAGAGUCCAUUCAGUAGCCCUCAUCUCACCCUUCAAAGAGAGUCAGCUAGCAGAUUAGAAACAAAUGUCUGAUUAGGAUGAAGCAGGUUUGAGGGGUGCUGGUAUAAUAGCAAGAAAGAUUUGCUGACCACUCUCUUUCCAAACUCCAUAGUUUCUGAGUGGAAACGAGGAUGAGUGAGGUCCUGGCUCAAGUAUUUUACUCCCACUACCACCUGGGAGCCCUCCAGGAAAAGAGCUGAGGCUGCUCCAGAUGGAAGUCAAGAGCAGCUGGUAUUUACACCUGGAAAAUCAGAUUUUUUUUUCUUUUGCAAUAACUCGGUAGUAAGACCAGACCAACAAUUUUAGAGAAAAGCCUACAUCUAACAUACAUGCUACCAAACGAGUGUCUAACAGGAAUAAACCAAGCAGAAAUCUCAAAACAGGUCUACAUCAAAAGUUACAAGCAAGCAUAUCAGGUGCAAUACUGAGGAUGAGUAUAUUAGGAAGUAAAAACACUUACCGUAAAUGAAUAUUCGAAGUGCACACUGCAAUGGGUUGAUUGGAGAGAUAUCUAAAUGUAAACAUUUGACAUCAAAGUGGCAAGCUUUGGGCUCCAUUGGAAGGCUGCAAUUUCCAUGGAAAAGCCCUCAGAGAAGCAUGUUUCAAUUGCCGAAACAGGCCUAAUCCUUAUGCAAGAUGUAAGGGUUUUAAAAAGUUAGAAACUCUGCUCUCACCUUUCAAUAUUAAGAGCAUAAACAAAUGAAUCACCAGGCAGAUUUUUAUAUAUGACACUAAGAGAUUUAGAACUUUAAGAGCUGUGGUGACCACAUUAUGGUGGAGGAACAAAAAAGGAAACCUUGGCAGUUAGAAAGCUGCUCAGUGAUGAAUUCAAGAAGGAACCAGCUUUAAAUUAUCUCUUCAUGCCAACAUCCAUCUAUACACUGAAAGUUUUAGUAUUGUACAUUAAGACGAUCAGGCCCAGCAGGGUGGUUCACGCCUGUAAUCCCAGAACUUUGGGAGACUGACAUGGUGGAUCACUUAAGCCCAGGAGUUUGAGACCAGCCUGGGCAACAUGGCAAAACUGUCUCUACUAAAAAUACAAAAAAACUAGCUGGGUGUGGUGAUGCAUACCUGUAGUCCUACCUACUUGAGAGGCUGAAGCAGGAGAAUCGCUUAAGGUCAAGGCUGCAGUGAGCUGUGAUUGUGCCACUGCACUCCAGCCUGGGUGACACAGCGAGACCCUGUCUCUAAAACAAAAAAGACAAUAAAGUAGUUUAAGCUAGUAAAACAGAAGGUGCCACAACAACCUGCAAAGCCAGUGUGAAGGAACAGCUUGAAAAAACUUCGAAUUUCUACUGACUACAGACAAAUCCAAGUGCUGAUAUUUUUAUAUCAAUUACUGGCCAAAAUGGUGUGUUUAUUUUUUAAAGCUUGUAUCAUGGAAUGUAUAAUCUAAUCUGGAAAAAUGUUUGAAAGGGAUGGCUAGAAAAAAAUUUGGGCUCACAGGCACUCACCAAAUAAGAACGUCAACAAUCACUAAACUGCAUUUUUAUUUAAACAACAUUAAUUACAGUC-3'- Poly-A tail
  • Coding region
NCBI Matured mRNA sequence viewer
;
More about the NCBI sViewer.
DNA
DNA (Gene ID: 202)
CRYBG1
crystallin beta-gamma domain containing 1
NC_000006.12
6  106512342.. 106568566
106512342.. 106568566
strand +
CCDS34506.1
MGI:109544
ClinVar, dbVar
ENSG00000112297
uc284pzd.1
INSDC: U83115
356
601797
OTTHUMG00000015302
ENA, DDBJ, Monarch
NCBI CDS Gene viewer
More about the NCBI sViewer.
NCBI CDS gene sequence (5172 bp)
5'-ATGGAGAAGAGGTCCAGCGGCCGTAGGTCGGGGAGGCGGAGGGGGTCGCAGAAATCCACCGACTCCCCCGGCGCGGACGCCGAGCTCCCTGAGAGCGCTGCCAGGGACGACGCGGTGTTCGACGACGAGGTGGCGCCAAACGCGGCCAGCGATAACGCCTCGGCGGAAAAGAAAGTGAAATCTCCGCGGGCAGCCCTCGACGGGGGCGTTGCCTCCGCTGCGAGCCCAGAGTCCAAGCCCAGCCCCGGTACCAAAGGGCAGCTCCGAGGGGAGTCGGACCGGAGCAAACAGCCACCCCCGGCTTCGTCCCCCACGAAGAGGAAGGGCAGGAGCCGTGCCCTCGAGGCCGTGCCCGCCCCGCCCGCCAGCGGCCCCCGGGCTCCCGCCAAGGAGTCCCCACCCAAGAGGGTGCCCGATCCCAGCCCAGTCACCAAGGGCACTGCGGCCGAGAGCGGGGAGGAGGCGGCGCGGGCCATCCCCCGCGAGCTCCCGGTCAAGAGCAGCTCGCTGCTGCCGGAGATCAAGCCCGAGCACAAGAGGGGCCCGCTCCCCAACCACTTCAACGGCCGGGCAGAGGGAGGTCGAAGCAGAGAGCTGGGCAGAGCGGCCGGAGCGCCTGGAGCTTCTGACGCCGACGGCTTGAAGCCCAGGAACCATTTCGGCGTGGGCAGGTCGACAGTGACCACTAAAGTGACCCTCCCTGCCAAGCCCAAACATGTGGAACTAAATCTTAAAACCCCTAAGAATCTTGACAGTTTGGGAAATGAGCACAATCCATTTAGCCAGCCAGTTCACAAAGGCAACACTGCCACCAAAATCTCCTTATTTGAAAACAAACGGACAAACAGTAGCCCAAGACACACTGACATTCGAGGCCAAAGGAATACTCCTGCCTCTAGTAAAACGTTTGTTGGGAGGGCAAAGCTGAATTTAGCCAAAAAAGCCAAAGAAATGGAGCAACCTGAAAAGAAAGTAATGCCAAACAGTCCCCAGAATGGTGTGCTGGTTAAGGAAACTGCTATAGAAACCAAAGTTACCGTCTCGGAAGAAGAGATTCTGCCAGCAACCAGAGGAATGAATGGAGACTCTTCTGAGAATCAAGCTCTTGGTCCTCAGCCTAACCAAGATGATAAAGCAGATGTACAAACAGATGCTGGCTGCCTTTCAGAACCAGTGGCTTCTGCTCTGATTCCTGTCAAGGATCATAAGCTCTTAGAGAAGGAGGACTCAGAGGCTGCAGACAGCAAAAGCCTTGTACTTGAAAATGTAACCGATACAGCACAAGACATCCCCACCACTGTGGATACCAAAGATTTACCTCCAACGGCCATGCCAAAGCCACAGCATACATTTTCTGACTCACAGTCCCCTGCTGAGTCATCTCCTGGGCCTTCTCTTTCACTGTCTGCACCCGCTCCTGGGGATGTTCCCAAAGACACATGTGTTCAATCACCCATAAGCAGTTTCCCATGCACTGATCTAAAAGTGTCAGAAAACCATAAAGGATGTGTTTTGCCTGTGTCTCGTCAGAACAATGAGAAAATGCCACTTTTAGAACTTGGAGGAGAAACAACCCCTCCTTTGTCCACAGAGCGTAGTCCAGAAGCTGTGGGAAGTGAGTGTCCATCCAGAGTCCTCGTCCAGGTCAGGTCCTTCGTGCTCCCCGTGGAGAGCACCCAGGATGTGAGCTCCCAGGTCATCCCAGAGAGCTCTGAAGTTAGAGAAGTGCAGTTGCCAACTTGTCACAGTAATGAACCTGAAGTGGTTTCCGTTGCAAGTTGTGCTCCCCCACAAGAGGAAGTACTGGGCAATGAACACTCTCATTGCACAGCAGAGCTCGCGGCAAAATCTGGCCCACAAGTCATACCGCCAGCATCAGAGAAAACTCTGCCTATTCAGGCTCAAAGTCAGGGCAGCAGAACACCCCTGATGGCTGAATCCAGTCCCACCAACTCTCCCAGCAGCGGAAATCACTTAGCCACTCCTCAAAGGCCAGATCAGACTGTTACAAATGGCCAGGATAGCCCTGCCAGCCTTTTGAACATTTCTGCTGGTAGTGATGATAGTGTATTTGATTCTTCTTCTGATATGGAAAAATTCACTGAAATTATAAAACAGATGGATAGCGCAGTTTGTATGCCCATGAAAAGAAAGAAGGCCAGGATGCCAAACTCTCCTGCTCCTCACTTTGCCATGCCTCCTATTCACGAAGACCATTTAGAAAAGGTGTTTGATCCCAAAGTGTTTACCTTTGGTTTGGGGAAGAAGAAGGAAAGTCAGCCAGAAATGTCACCGGCTTTACATTTGATGCAGAACCTTGACACAAAATCCAAACTGAGACCCAAACGTGCATCTGCTGAACAGAGCGTCCTCTTCAAGTCCCTGCACACCAACACTAATGGGAACAGTGAGCCTCTGGTGATGCCGGAAATCAATGACAAAGAGAACAGGGACGTCACAAATGGTGGCATTAAGAGATCGAGACTAGAAAAAAGTGCACTTTTCTCAAGCTTGTTATCTTCTTTACCACAAGACAAAATCTTTTCTCCTTCTGTGACATCAGTCAACACTATGACCACGGCTTTCAGTACTTCTCAGAACGGTTCCCTATCTCAGTCTTCAGTGTCACAGCCCACGACTGAGGGTGCCCCGCCCTGTGGTTTGAACAAAGAACAGTCAAATCTTCTGCCCGACAACTCCTTAAAGGTCTTCAATTTCAACTCGTCAAGTACATCACACTCCAGTTTGAAAAGTCCAAGCCACATGGAAAAATACCCGCAAAAAGAGAAAACCAAAGAAGATCTGGATTCACGAAGCAACCTACACTTGCCAGAAACTAAATTTTCTGAATTGTCAAAACTGAAGAATGATGATATGGAAAAGGCTAATCATATTGAAAGTGTTATTAAATCAAACTTGCCAAACTGTGCAAACAGTGACACCGACTTCATGGGTCTTTTCAAATCAAGCCGGTATGACCCAAGCATTTCTTTTTCTGGAATGTCATTATCAGACACAATGACACTTAGAGGAAGTGTCCAAAATAAACTCAATCCCCGACCTGGAAAGGTAGTGATATATAGTGAACCCGACGTCTCTGAGAAGTGCATTGAAGTTTTCAGTGACATTCAGGATTGCAGTTCTTGGAGCCTCTCTCCAGTGATACTCATAAAAGTTGTTAGAGGATGTTGGATTTTGTATGAGCAACCAAATTTTGAAGGGCACTCCATCCCCTTAGAAGAAGGAGAATTGGAACTCTCTGGTCTCTGGGGTATAGAAGACATTTTGGAAAGGCACGAAGAAGCAGAGTCTGATAAGCCAGTGGTGATTGGTTCCATCAGACATGTGGTTCAGGATTACAGAGTTAGTCACATTGACTTATTTACTGAACCAGAAGGGTTAGGAATCCTAAGTTCCTACTTTGATGATACTGAAGAAATGCAGGGATTTGGTGTAATGCAGAAGACTTGTTCCATGAAAGTACATTGGGGCACGTGGCTGATTTATGAAGAACCTGGATTTCAGGGTGTTCCTTTCATCCTGGAACCTGGTGAATACCCTGACTTGTCCTTCTGGGATACAGAAGAAGCGTACATTGGATCCATGCGGCCTCTGAAAATGGGTGGCCGTAAAGTTGAATTCCCTACAGATCCAAAGGTAGTTGTTTATGAAAAGCCTTTCTTTGAAGGAAAATGTGTGGAACTAGAAACAGGAATGTGTAGTTTTGTCATGGAGGGAGGTGAAACAGAAGAGGCGACTGGAGACGATCATTTGCCGTTTACGTCAGTGGGGTCTATGAAAGTTCTAAGAGGCATTTGGGTTGCATATGAGAAACCTGGATTTACCGGTCATCAGTATTTGCTAGAAGAAGGAGAATACAGGGACTGGAAAGCCTGGGGAGGTTACAATGGAGAGCTTCAGTCTTTACGACCTATATTAGGTGATTTTTCAAATGCTCACATGATAATGTACAGTGAAAAAAACTTTGGATCCAAAGGTTCCAGTATTGATGTATTGGGAATTGTTGCTAATTTAAAGGAGACTGGATATGGAGTGAAGACACAGTCTATTAATGTACTGAGTGGAGTATGGGTAGCCTATGAAAATCCTGACTTCACAGGAGAACAGTATATACTGGATAAAGGATTTTATACCAGTTTTGAGGACTGGGGAGGCAAAAATTGTAAGATCTCTTCTGTTCAACCTATATGTTTGGATTCTTTCACTGGCCCAAGGAGACGAAATCAGATTCACTTGTTTTCAGAACCACAGTTTCAAGGTCACAGTCAAAGTTTTGAAGAAACAACAAGTCAAATTGATGATTCATTTTCTACCAAGTCTTGCAGAGTTTCAGGAGGCAGCTGGGTTGTATATGATGGAGAAAATTTCACTGGTAATCAATACGTGTTGGAAGAAGGCCATTATCCTTGTCTGTCTGCAATGGGATGCCCGCCTGGAGCAACTTTCAAGTCTCTTCGTTTTATAGATGTTGAATTTTCTGAACCAACAATTATTCTCTTTGAAAGAGAAGACTTCAAAGGAAAAAAGATTGAACTTAATGCAGAAACTGTCAATCTCCGATCCCTGGGATTCAACACACAAATACGCTCTGTTCAGGTTATTGGTGGCATATGGGTTACTTATGAATATGGCAGTTACAGAGGGCGACAGTTCCTATTGTCACCTGCAGAAGTACCTAATTGGTATGAATTCAGTGGCTGTCGCCAAATAGGTTCTCTACGACCTTTTGTTCAGAAGCGAATTTATTTCAGACTTCGAAACAAAGCAACAGGGTTATTCATGTCAACCAATGGAAACTTAGAGGATCTGAAGCTTCTGAGGATACAGGTCATGGAGGATGTCGGGGCCGATGATCAGATTTGGATCTATCAAGAAGGATGTATCAAATGCAGGATAGCAGAAGACTGCTGCCTGACGATTGTGGGCAGCCTGGTAACATCTGGCTCCAAGCTAGGCCTGGCCCTGGACCAGAATGCTGACAGCCAGTTCTGGAGCTTGAAGTCCGATGGCAGGATTTACAGCAAGTTGAAGCCAAATTTAGTTTTAGACATTAAAGGGGGCACACAGTATGATCAAAATCACATTATCCTCAACACTGTCAGCAAAGAGAAGTTTACACAAGTGTGGGAAGCCATGGTCCTATATACCTGA-3'
NCBI CDS gene sequence with introns (location: 106512342.. 106568566) (56225 bp)Download
NCBI Gene Viewer (CDS + introns)
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 106511855.. 106572017) (60163 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions)
NCBI gene sequence (location: [106511855 - 1000].. 106572017) (61163 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions + 1000 dNTP to potentially reach the promotor)
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