HumanLectome - Human Lectin Entry

NCBI Summary

This gene encodes maltase-glucoamylase, which is a brush border membrane enzyme that plays a role in the final steps of digestion of starch. The protein has two catalytic sites identical to those of sucrase-isomaltase, but the proteins are only 59% homologous. Both are members of glycosyl hydrolase family 31, which has a variety of substrate specificities. [provided by RefSeq, Jul 2008].

Protein name

Maltase-glucoamylase

Synonym(s)

Maltase-glucoamylase (Alpha-1,4-glucosidase) (EC 3.2.1.20)

HGNC gene name

MGAM

HGNC name

maltase-glucoamylase

Protein_CD_name

Undefined

Lectin confidence

Very low evidence

UniLectin class

Trefoil Factor

Known lectin group

Undefined

Lectin fold

peptide

Glycan specificity

Uncharacterised

RefSeq accession

NP_004659

Gene ID

8972

UniProt accession

O43451

Ensembl protein ID

Undefined

UniRef cluster ID

O43451

LectomeXplore score

Undefined

Reference

Undefined

Other links

neXtProt, PFAM, InterPro

Protein sequence and protein families (fasta) (1857 amino acids) Download

MARKKLKKFTTLEIVLSVLLLVLFIISIVLIVLLAKESLKSTAPDPGTTGTPDPGTTGTPDPGTTGTTHARTTGPPDPGTTGTTPVSAECPVVNELERINCIPDQPPTKATCDQRGCCWNPQGAVSVPWCYYSKNHSYHVEGNLVNTNAGFTARLKNLPSSPVFGSNVDNVLLTAEYQTSNRFHFKLTDQTNNRFEVPHEHVQSFSGNAAASLTYQVEISRQPFSIKVTRRSNNRVLFDSSIGPLLFADQFLQLSTRLPSTNVYGLGEHVHQQYRHDMNWKTWPIFNRDTTPNGNGTNLYGAQTFFLCLEDASGLSFGVFLMNSNAMEVVLQPAPAITYRTIGGILDFYVFLGNTPEQVVQEYLELIGRPALPSYWALGFHLSRYEYGTLDNMREVVERNRAAQLPYDVQHADIDYMDERRDFTYDSVDFKGFPEFVNELHNNGQKLVIIVDPAISNNSSSSKPYGPYDRGSDMKIWVNSSDGVTPLIGEVWPGQTVFPDYTNPNCAVWWTKEFELFHNQVEFDGIWIDMNEVSNFVDGSVSGCSTNNLNNPPFTPRILDGYLFCKTLCMDAVQHWGKQYDIHNLYGYSMAVATAEAAKTVFPNKRSFILTRSTFAGSGKFAAHWLGDNTATWDDLRWSIPGVLEFNLFGIPMVGPDICGFALDTPEELCRRWMQLGAFYPFSRNHNGQGYKDQDPASFGADSLLLNSSRHYLNIRYTLLPYLYTLFFRAHSRGDTVARPLLHEFYEDNSTWDVHQQFLWGPGLLITPVLDEGAEKVMAYVPDAVWYDYETGSQVRWRKQKVEMELPGDKIGLHLRGGYIFPTQQPNTTTLASRKNPLGLIIALDENKEAKGELFWDNGETKDTVANKVYLLCEFSVTQNRLEVNISQSTYKDPNNLAFNEIKILGTEEPSNVTVKHNGVPSQTSPTVTYDSNLKVAIITDIDLLLGEAYTVEWSIKIRDEEKIDCYPDENGASAENCTARGCIWEASNSSGVPFCYFVNDLYSVSDVQYNSHGATADISLKSSVYANAFPSTPVNPLRLDVTYHKNEMLQFKIYDPNKNRYEVPVPLNIPSMPSSTPEGQLYDVLIKKNPFGIEIRRKSTGTIIWDSQLLGFTFSDMFIRISTRLPSKYLYGFGETEHRSYRRDLEWHTWGMFSRDQPPGYKKNSYGVHPYYMGLEEDGSAHGVLLLNSNAMDVTFQPLPALTYRTTGGVLDFYVFLGPTPELVTQQYTELIGRPVMVPYWSLGFQLCRYGYQNDSEIASLYDEMVAAQIPYDVQYSDIDYMERQLDFTLSPKFAGFPALINRMKADGMRVILILDPAISGNETQPYPAFTRGVEDDVFIKYPNDGDIVWGKVWPDFPDVVVNGSLDWDSQVELYRAYVAFPDFFRNSTAKWWKREIEELYNNPQNPERSLKFDGMWIDMNEPSSFVNGAVSPGCRDASLNHPPYMPHLESRDRGLSSKTLCMESQQILPDGSLVQHYNVHNLYGWSQTRPTYEAVQEVTGQRGVVITRSTFPSSGRWAGHWLGDNTAAWDQLKKSIIGMMEFSLFGISYTGADICGFFQDAEYEMCVRWMQLGAFYPFSRNHNTIGTRRQDPVSWDVAFVNISRTVLQTRYTLLPYLYTLMHKAHTEGVTVVRPLLHEFVSDQVTWDIDSQFLLGPAFLVSPVLERNARNVTAYFPRARWYDYYTGVDINARGEWKTLPAPLDHINLHVRGGYILPWQEPALNTHLSRQKFMGFKIALDDEGTAGGWLFWDDGQSIDTYGKGLYYLASFSASQNTMQSHIIFNNYITGTNPLKLGYIEIWGVGSVPVTSVSISVSGMVITPSFNNDPTTQVLSIDVTDRNISLHNFTSLTWISTL

Mol* PDB structure viewerUniLectin3D

Select a PDB entry:

Structural models

AlphaFold v2: AF-O43451-F1 Download

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.

Expression

Human Protein Atlas

GeneCards

mRNA expression in normal human tissues for MGAM Gene

ProteomicsDB

References

NCBI References (10 PubMed Identifiers)

A reference map of the human binary protein interactome. [32296183]

Mechanistic Pathway on Human alpha-Glucosidase Maltase-Glucoamylase Unveiled by QM/MM Calculations. [29548257]

A genome-wide study of inherited deletions identified two regions associated with nonsyndromic isolated oral clefts. [25776870]

Branch pattern of starch internal structure influences the glucogenesis by mucosal Nt-maltase-glucoamylase. [25037326]

An atlas of genetic influences on human blood metabolites. [24816252]

Evidence of native starch degradation with human small intestinal maltase-glucoamylase (recombinant). [17485087]

The maltase-glucoamylase gene: common ancestry to sucrase-isomaltase with complementary starch digestion activities. [12547908]

Human small intestinal maltase-glucoamylase cDNA cloning. Homology to sucrase-isomaltase. [9446624]

Structure, biosynthesis, and glycosylation of human small intestinal maltase-glucoamylase. [3143729]

Tyrosine sulfation, a post-translational modification of microvillar enzymes in the small intestinal enterocyte. [3121301]

UniProt Main References (7 PubMed Identifiers)

The DNA sequence of human chromosome 7. [12853948]

The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). [15489334]

Analysis of the human tissue-specific expression by genome-wide integration of transcriptomics and antibody-based proteomics. [24309898]

Luminal starch substrate 'brake' on maltase-glucoamylase activity is located within the glucoamylase subunit. [18356321]

Structural insight into substrate specificity of human intestinal maltase-glucoamylase. [22058037]

Contribution of the Individual Small Intestinal alpha-Glucosidases to Digestion of Unusual alpha-Linked Glycemic Disaccharides. [27480812]

Human intestinal maltase-glucoamylase: crystal structure of the N-terminal catalytic subunit and basis of inhibition and substrate specificity. [18036614]

All isoforms of this gene containing a lectin domain

NP_001352622.1, XP_011514972.1, XP_011514973.1, XP_011514974.1, XP_011514975.1, XP_016868261.1, XP_011514976.1, XP_024302758.1, NP_004659.2

RNA

RNA (Transcript ID: NM_004668.3)

RNA RefSeq ID

NM_004668.3

RNA name

maltase-glucoamylase, transcript variant 2

Isoforms

All isoforms of MGAM containing a lectin domain

RNA Ensembl ID

Coding region

55..5628 (or 142005531.. 142105891)

mRNA location

141995879.. 142106747

NCBI Matured mRNA sequence 6484 NTP Download

m⁷G-5')ppp(5'-AUUGCUAAGCCAUCCUUCAGACAGAGAGGGAGCGGCUGCAAGAGGUAAUGAGAGAUGGCAAGAAAGAAGCUGAAAAAAUUUACUACUUUGGAGAUUGUGCUCAGUGUUCUUCUGCUUGUGUUGUUUAUCAUCAGUAUUGUUCUAAUUGUGCUUUUAGCCAAAGAGUCACUGAAAUCAACAGCCCCAGAUCCUGGGACAACUGGUACCCCAGAUCCUGGGACAACUGGUACCCCAGAUCCUGGAACAACUGGUACCACACAUGCUAGGACAACGGGUCCCCCAGAUCCUGGAACAACUGGUACCACUCCUGUUUCUGCUGAAUGUCCAGUGGUAAAUGAAUUGGAACGAAUUAAUUGCAUCCCUGACCAGCCGCCAACAAAGGCCACAUGUGACCAACGUGGCUGUUGCUGGAAUCCCCAGGGAGCUGUAAGUGUUCCCUGGUGCUACUAUUCCAAGAAUCAUAGCUACCAUGUAGAGGGCAACCUUGUCAACACAAAUGCAGGAUUCACAGCCCGGUUGAAAAAUCUGCCUUCUUCACCAGUGUUUGGAAGCAAUGUUGACAAUGUUCUUCUCACAGCAGAAUAUCAGACAUCUAAUCGUUUCCACUUUAAGUUGACUGACCAAACCAAUAACAGGUUUGAAGUGCCCCACGAACACGUGCAGUCCUUCAGUGGAAAUGCUGCUGCUUCUUUGACCUACCAAGUUGAAAUCUCCAGACAGCCAUUUAGCAUCAAAGUGACCAGAAGAAGCAACAAUCGUGUUUUGUUUGACUCGAGCAUUGGGCCCCUACUGUUUGCUGACCAGUUCUUGCAGCUCUCCACUCGACUGCCUAGCACUAACGUGUAUGGCCUGGGAGAGCAUGUGCACCAGCAGUAUCGGCAUGAUAUGAAUUGGAAGACCUGGCCCAUAUUUAACAGAGACACAACUCCCAAUGGAAACGGAACUAAUUUGUAUGGUGCGCAGACAUUCUUCUUGUGCCUUGAAGAUGCUAGUGGAUUGUCCUUUGGGGUGUUUCUGAUGAACAGCAAUGCCAUGGAGGUUGUCCUUCAGCCUGCGCCAGCCAUCACUUACCGCACCAUUGGGGGCAUUCUCGACUUCUAUGUGUUCUUGGGAAACACUCCAGAGCAAGUUGUUCAAGAAUAUCUAGAGCUCAUUGGGCGGCCAGCCCUUCCCUCCUACUGGGCGCUUGGAUUUCACCUCAGUCGUUACGAAUAUGGAACCUUAGACAACAUGAGGGAAGUCGUGGAGAGAAAUCGCGCAGCACAGCUCCCUUAUGAUGUUCAGCAUGCUGAUAUUGAUUAUAUGGAUGAGAGAAGGGACUUCACUUAUGAUUCAGUGGAUUUUAAAGGCUUCCCUGAAUUUGUCAACGAGUUACACAAUAAUGGACAGAAGCUUGUCAUCAUUGUGGAUCCAGCCAUCUCCAACAACUCUUCCUCAAGUAAACCCUAUGGCCCAUAUGACAGGGGUUCAGAUAUGAAGAUAUGGGUGAAUAGUUCAGAUGGAGUGACUCCACUCAUUGGGGAGGUCUGGCCUGGACAAACUGUGUUUCCUGAUUAUACCAAUCCCAACUGUGCUGUUUGGUGGACAAAGGAAUUUGAGCUUUUUCACAAUCAAGUAGAGUUUGAUGGAAUCUGGAUUGAUAUGAAUGAAGUCUCCAACUUUGUUGAUGGUUCGGUCUCAGGAUGUUCCACAAACAACCUAAAUAAUCCCCCAUUCACUCCCAGAAUCCUGGAUGGGUACCUGUUCUGCAAGACUCUCUGUAUGGAUGCAGUGCAGCACUGGGGCAAGCAGUAUGACAUUCACAAUCUGUAUGGCUACUCCAUGGCGGUCGCCACAGCAGAAGCUGCCAAGACUGUGUUCCCUAAUAAGAGAAGCUUCAUUCUGACCCGUUCUACCUUUGCGGGCUCUGGCAAGUUUGCAGCACAUUGGUUAGGAGACAACACUGCCACCUGGGAUGACCUGAGAUGGUCCAUCCCUGGCGUGCUUGAGUUCAACCUUUUUGGCAUCCCAAUGGUGGGUCCUGACAUAUGUGGCUUUGCUUUGGACACCCCUGAGGAGCUCUGUAGGCGGUGGAUGCAGUUGGGUGCAUUUUAUCCGUUUUCUAGAAAUCACAAUGGCCAAGGCUACAAGGACCAGGAUCCUGCCUCCUUUGGAGCUGACUCCCUGCUGUUGAAUUCCUCCAGGCACUACCUUAACAUCCGCUAUACUCUAUUGCCCUACCUAUACACCCUCUUCUUCCGUGCUCACAGCCGAGGGGACACGGUGGCCAGGCCCCUUUUGCAUGAGUUCUACGAGGACAACAGCACUUGGGAUGUGCACCAACAGUUCUUAUGGGGGCCCGGCCUCCUCAUCACUCCAGUUCUGGAUGAAGGUGCAGAGAAAGUGAUGGCAUAUGUGCCUGAUGCUGUCUGGUAUGACUACGAGACUGGGAGCCAAGUGAGAUGGAGGAAGCAAAAAGUCGAGAUGGAACUUCCUGGAGACAAAAUUGGACUUCACCUUCGAGGAGGCUACAUCUUCCCCACACAGCAGCCAAAUACAACCACUCUGGCCAGUCGAAAGAACCCUCUUGGUCUUAUCAUUGCCCUAGAUGAGAACAAAGAAGCAAAAGGAGAACUUUUCUGGGAUAAUGGGGAAACGAAGGAUACUGUGGCCAAUAAAGUGUAUCUUUUAUGUGAGUUUUCUGUCACUCAAAACCGCUUGGAGGUGAAUAUUUCACAAUCAACCUACAAGGACCCCAAUAAUUUAGCAUUUAAUGAGAUUAAAAUUCUUGGGACGGAGGAACCUAGCAAUGUUACAGUGAAACACAAUGGUGUCCCAAGUCAGACUUCUCCUACAGUCACUUAUGAUUCUAACCUGAAGGUUGCCAUUAUCACAGAUAUUGAUCUUCUCCUGGGAGAAGCAUACACAGUGGAAUGGAGCAUAAAGAUAAGGGAUGAAGAAAAAAUAGACUGUUACCCUGAUGAGAAUGGUGCUUCUGCCGAAAACUGCACUGCCCGUGGCUGUAUCUGGGAGGCAUCCAAUUCUUCUGGAGUCCCUUUUUGCUAUUUUGUCAACGACCUAUACUCUGUCAGUGAUGUUCAGUAUAAUUCCCAUGGGGCCACAGCUGACAUCUCCUUAAAGUCUUCCGUUUAUGCCAAUGCCUUCCCCUCCACACCCGUGAACCCCCUUCGCCUGGAUGUCACUUACCAUAAGAAUGAAAUGCUGCAGUUCAAGAUUUAUGAUCCCAACAAGAAUCGGUAUGAAGUUCCAGUCCCUCUGAACAUACCCAGCAUGCCAUCCAGCACCCCUGAGGGUCAACUCUAUGAUGUGCUCAUUAAGAAGAAUCCAUUUGGGAUUGAAAUUCGCCGGAAGAGUACAGGCACUAUAAUUUGGGACUCUCAGCUCCUUGGCUUUACCUUCAGUGACAUGUUUAUCCGCAUCUCCACCCGCCUUCCCUCCAAGUACCUCUAUGGCUUUGGGGAAACUGAGCACAGGUCCUAUAGGAGAGACUUGGAGUGGCACACUUGGGGGAUGUUCUCCCGAGACCAGCCCCCAGGGUACAAGAAGAAUUCCUAUGGUGUCCACCCCUACUACAUGGGGCUGGAGGAGGACGGCAGUGCCCAUGGAGUGCUCCUGCUGAACAGCAAUGCCAUGGAUGUGACGUUCCAGCCCCUGCCUGCCUUGACAUACCGCACCACAGGGGGAGUUCUGGACUUUUAUGUGUUCUUGGGGCCGACUCCAGAGCUUGUCACCCAGCAGUACACUGAGUUGAUUGGCCGGCCUGUGAUGGUACCUUACUGGUCUUUGGGGUUCCAGCUGUGUCGCUAUGGCUACCAGAAUGACUCUGAGAUCGCCAGCUUGUAUGAUGAGAUGGUGGCUGCCCAGAUCCCUUAUGAUGUGCAGUACUCAGACAUCGACUACAUGGAGCGGCAGCUGGACUUCACCCUCAGCCCCAAGUUUGCUGGGUUUCCAGCUCUGAUCAAUCGCAUGAAGGCUGAUGGGAUGCGGGUCAUCCUCAUUCUGGAUCCAGCCAUUUCUGGCAAUGAGACACAGCCUUAUCCUGCCUUCACUCGGGGCGUGGAGGAUGACGUCUUCAUCAAAUACCCAAAUGAUGGAGACAUUGUCUGGGGAAAGGUCUGGCCUGAUUUUCCUGAUGUUGUUGUGAAUGGGUCUCUAGACUGGGACAGCCAAGUGGAGCUAUAUCGAGCUUAUGUGGCCUUCCCAGACUUUUUCCGUAAUUCAACUGCCAAGUGGUGGAAGAGGGAAAUAGAAGAACUAUACAACAAUCCACAGAAUCCAGAGAGGAGCUUGAAGUUUGAUGGCAUGUGGAUUGAUAUGAAUGAACCAUCAAGCUUCGUGAAUGGGGCAGUUUCUCCAGGCUGCAGGGACGCCUCUCUGAACCACCCUCCCUACAUGCCACAUUUGGAGUCCAGGGACAGGGGCCUGAGCAGCAAGACCCUUUGUAUGGAGAGUCAGCAGAUCCUCCCAGACGGCUCCCUGGUGCAGCACUACAACGUGCACAACCUGUAUGGGUGGUCCCAGACCAGACCCACAUACGAAGCCGUGCAGGAGGUGACGGGACAGCGAGGGGUCGUCAUCACCCGCUCCACAUUUCCCUCUUCUGGCCGCUGGGCAGGACAUUGGCUGGGAGACAACACGGCCGCAUGGGAUCAGCUGAAGAAGUCUAUCAUUGGCAUGAUGGAGUUCAGCCUCUUCGGCAUAUCCUAUACGGGAGCAGAUAUCUGUGGGUUCUUUCAAGAUGCUGAAUAUGAGAUGUGUGUUCGCUGGAUGCAGCUGGGGGCCUUUUACCCCUUCUCAAGAAACCACAACACCAUUGGGACCAGGAGACAAGACCCUGUGUCCUGGGAUGUUGCUUUUGUGAAUAUUUCCAGAACUGUCCUGCAGACCAGAUACACCCUGUUGCCAUAUCUGUAUACCUUGAUGCAUAAGGCCCACACGGAGGGCGUCACUGUUGUGCGGCCUCUGCUCCAUGAGUUUGUGUCAGACCAGGUGACAUGGGACAUAGACAGUCAGUUCCUGCUGGGCCCAGCCUUCCUGGUCAGCCCUGUCCUGGAGCGUAAUGCCAGAAAUGUCACUGCAUAUUUCCCUAGAGCCCGCUGGUAUGAUUACUACACGGGUGUGGAUAUUAAUGCAAGAGGAGAGUGGAAGACCUUGCCAGCCCCUCUUGACCACAUUAAUCUUCAUGUCCGUGGGGGCUACAUCCUGCCCUGGCAAGAGCCUGCACUGAACACCCACUUAAGCCGCCAGAAAUUCAUGGGCUUCAAAAUUGCCUUGGAUGAUGAAGGAACUGCUGGGGGCUGGCUCUUCUGGGAUGAUGGGCAAAGCAUUGAUACCUAUGGGAAAGGACUCUAUUACUUGGCCAGCUUUUCUGCCAGCCAGAAUACGAUGCAAAGCCAUAUAAUUUUCAACAAUUACAUCACUGGUACAAAUCCUUUGAAACUGGGCUACAUUGAAAUCUGGGGAGUGGGCAGUGUCCCCGUUACCAGUGUCAGCAUCUCUGUGAGUGGCAUGGUCAUAACACCCUCCUUCAACAAUGACCCCACGACACAGGUAUUAAGCAUCGAUGUGACUGACAGAAACAUCAGCCUACAUAAUUUUACUUCAUUGACGUGGAUAAGCACUCUGUGAAUUUUUACAGCAAGAUUCUAACUAACUAUGAAUGACUUUGAAACUACUUAUACUUCAUACUCAUAAAAAUUAUUGUGUGUUGCUAAUUUGUUCAUACCCACUAUUGGUGAAAUAUUUCUGUUAAUUUUGUUAUAUGUUUUUUGUGUGAACCCUAAAGGUUAAACCUUAGCCCUGUGGGAUAGGCAGUUAGGGAGGUGUGGAAAAUCUAUGCAUUACCUUAAUGUCUCUGUGUGGUUAGUAUGGUAGUGACUGUUCAUCAUAUGACAUUUACUGAAGAUGAACUGGGUCCAUGAUGAAGUGUGUGUAUGUCCACGUUUGUAAUCAUAGAAUGGACCCCAUUCUUUUGUUAAAUACACAAGAGAAAGCUUUCUGUGACAGUUCCAGGUCUUGAAGCUAAUCAGCAUCUCAAGAAAGUAUCCAGAAAGAACAUCUGCUAGUUGGUUAUAGGCGGUGGGAGGAAUAAUAUACCUAAUUGGUUAUAGGUGGGGGGAGCAUGAUAAGCAAAGAAAAGGCAAACACAAGGAAAGAUCAGAUGAAACAGAAGAUGAUAGUAAAAGUGAUCCUAAGUAAGAACAUAAUGUAAAAUUGUCAGCAGCCUCAUGGGGAGGAAAAAGGAAGAGUCAACUCACUUGAAGAAGAGGGUCUUGAGAAAUCCUUAGCAUAAAGGGCUACUGGUGAGAUUGAGAUCUGAGCAGGCAAAGCUCAAAAGAGAGUUUGGAGGUUAAAAAUAAUUUAUUUUUGCAGUAGUGUGCUUUGAAAUGUGUAAAUCUUAUUUCUAAUGUAUACAACCACAUUUCACAUAAAAAUAUGCAAUUUAUAUGCCAGAUAAAAAUAAAACAAGUGAAUUUGCAAGUGA-3'- Poly-A tail

Coding region

NCBI Matured mRNA sequence viewer

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More about the NCBI sViewer.

DNA

DNA (Gene ID: 8972)

HGNC Gene symbol

MGAM

HGNC Gene name

maltase-glucoamylase

Chr. RefSeq ID

NC_000007.14

Chromosome N°

7 142005531.. 142105891

CDS location

142005531.. 142105891

DNA strand

strand +

CCDS ID

CCDS47727.1

Mouse ortholog gene

MGI:1203495

Gene Variant

ClinVar, dbVar

DNA Ensembl ID

ENSG00000257335

HGNC other symbol

MGA

UCSC ID

uc064isb.1

GeneBank

INSDC: AF016833

GeneCards

7043

MIM

154360

VEGA ID

OTTHUMG00000158395

Other links

ENA, DDBJ, Monarch

NCBI CDS Gene viewer

More about the NCBI sViewer.

NCBI CDS gene sequence (5574 bp)

5'-ATGGCAAGAAAGAAGCTGAAAAAATTTACTACTTTGGAGATTGTGCTCAGTGTTCTTCTGCTTGTGTTGTTTATCATCAGTATTGTTCTAATTGTGCTTTTAGCCAAAGAGTCACTGAAATCAACAGCCCCAGATCCTGGGACAACTGGTACCCCAGATCCTGGGACAACTGGTACCCCAGATCCTGGAACAACTGGTACCACACATGCTAGGACAACGGGTCCCCCAGATCCTGGAACAACTGGTACCACTCCTGTTTCTGCTGAATGTCCAGTGGTAAATGAATTGGAACGAATTAATTGCATCCCTGACCAGCCGCCAACAAAGGCCACATGTGACCAACGTGGCTGTTGCTGGAATCCCCAGGGAGCTGTAAGTGTTCCCTGGTGCTACTATTCCAAGAATCATAGCTACCATGTAGAGGGCAACCTTGTCAACACAAATGCAGGATTCACAGCCCGGTTGAAAAATCTGCCTTCTTCACCAGTGTTTGGAAGCAATGTTGACAATGTTCTTCTCACAGCAGAATATCAGACATCTAATCGTTTCCACTTTAAGTTGACTGACCAAACCAATAACAGGTTTGAAGTGCCCCACGAACACGTGCAGTCCTTCAGTGGAAATGCTGCTGCTTCTTTGACCTACCAAGTTGAAATCTCCAGACAGCCATTTAGCATCAAAGTGACCAGAAGAAGCAACAATCGTGTTTTGTTTGACTCGAGCATTGGGCCCCTACTGTTTGCTGACCAGTTCTTGCAGCTCTCCACTCGACTGCCTAGCACTAACGTGTATGGCCTGGGAGAGCATGTGCACCAGCAGTATCGGCATGATATGAATTGGAAGACCTGGCCCATATTTAACAGAGACACAACTCCCAATGGAAACGGAACTAATTTGTATGGTGCGCAGACATTCTTCTTGTGCCTTGAAGATGCTAGTGGATTGTCCTTTGGGGTGTTTCTGATGAACAGCAATGCCATGGAGGTTGTCCTTCAGCCTGCGCCAGCCATCACTTACCGCACCATTGGGGGCATTCTCGACTTCTATGTGTTCTTGGGAAACACTCCAGAGCAAGTTGTTCAAGAATATCTAGAGCTCATTGGGCGGCCAGCCCTTCCCTCCTACTGGGCGCTTGGATTTCACCTCAGTCGTTACGAATATGGAACCTTAGACAACATGAGGGAAGTCGTGGAGAGAAATCGCGCAGCACAGCTCCCTTATGATGTTCAGCATGCTGATATTGATTATATGGATGAGAGAAGGGACTTCACTTATGATTCAGTGGATTTTAAAGGCTTCCCTGAATTTGTCAACGAGTTACACAATAATGGACAGAAGCTTGTCATCATTGTGGATCCAGCCATCTCCAACAACTCTTCCTCAAGTAAACCCTATGGCCCATATGACAGGGGTTCAGATATGAAGATATGGGTGAATAGTTCAGATGGAGTGACTCCACTCATTGGGGAGGTCTGGCCTGGACAAACTGTGTTTCCTGATTATACCAATCCCAACTGTGCTGTTTGGTGGACAAAGGAATTTGAGCTTTTTCACAATCAAGTAGAGTTTGATGGAATCTGGATTGATATGAATGAAGTCTCCAACTTTGTTGATGGTTCGGTCTCAGGATGTTCCACAAACAACCTAAATAATCCCCCATTCACTCCCAGAATCCTGGATGGGTACCTGTTCTGCAAGACTCTCTGTATGGATGCAGTGCAGCACTGGGGCAAGCAGTATGACATTCACAATCTGTATGGCTACTCCATGGCGGTCGCCACAGCAGAAGCTGCCAAGACTGTGTTCCCTAATAAGAGAAGCTTCATTCTGACCCGTTCTACCTTTGCGGGCTCTGGCAAGTTTGCAGCACATTGGTTAGGAGACAACACTGCCACCTGGGATGACCTGAGATGGTCCATCCCTGGCGTGCTTGAGTTCAACCTTTTTGGCATCCCAATGGTGGGTCCTGACATATGTGGCTTTGCTTTGGACACCCCTGAGGAGCTCTGTAGGCGGTGGATGCAGTTGGGTGCATTTTATCCGTTTTCTAGAAATCACAATGGCCAAGGCTACAAGGACCAGGATCCTGCCTCCTTTGGAGCTGACTCCCTGCTGTTGAATTCCTCCAGGCACTACCTTAACATCCGCTATACTCTATTGCCCTACCTATACACCCTCTTCTTCCGTGCTCACAGCCGAGGGGACACGGTGGCCAGGCCCCTTTTGCATGAGTTCTACGAGGACAACAGCACTTGGGATGTGCACCAACAGTTCTTATGGGGGCCCGGCCTCCTCATCACTCCAGTTCTGGATGAAGGTGCAGAGAAAGTGATGGCATATGTGCCTGATGCTGTCTGGTATGACTACGAGACTGGGAGCCAAGTGAGATGGAGGAAGCAAAAAGTCGAGATGGAACTTCCTGGAGACAAAATTGGACTTCACCTTCGAGGAGGCTACATCTTCCCCACACAGCAGCCAAATACAACCACTCTGGCCAGTCGAAAGAACCCTCTTGGTCTTATCATTGCCCTAGATGAGAACAAAGAAGCAAAAGGAGAACTTTTCTGGGATAATGGGGAAACGAAGGATACTGTGGCCAATAAAGTGTATCTTTTATGTGAGTTTTCTGTCACTCAAAACCGCTTGGAGGTGAATATTTCACAATCAACCTACAAGGACCCCAATAATTTAGCATTTAATGAGATTAAAATTCTTGGGACGGAGGAACCTAGCAATGTTACAGTGAAACACAATGGTGTCCCAAGTCAGACTTCTCCTACAGTCACTTATGATTCTAACCTGAAGGTTGCCATTATCACAGATATTGATCTTCTCCTGGGAGAAGCATACACAGTGGAATGGAGCATAAAGATAAGGGATGAAGAAAAAATAGACTGTTACCCTGATGAGAATGGTGCTTCTGCCGAAAACTGCACTGCCCGTGGCTGTATCTGGGAGGCATCCAATTCTTCTGGAGTCCCTTTTTGCTATTTTGTCAACGACCTATACTCTGTCAGTGATGTTCAGTATAATTCCCATGGGGCCACAGCTGACATCTCCTTAAAGTCTTCCGTTTATGCCAATGCCTTCCCCTCCACACCCGTGAACCCCCTTCGCCTGGATGTCACTTACCATAAGAATGAAATGCTGCAGTTCAAGATTTATGATCCCAACAAGAATCGGTATGAAGTTCCAGTCCCTCTGAACATACCCAGCATGCCATCCAGCACCCCTGAGGGTCAACTCTATGATGTGCTCATTAAGAAGAATCCATTTGGGATTGAAATTCGCCGGAAGAGTACAGGCACTATAATTTGGGACTCTCAGCTCCTTGGCTTTACCTTCAGTGACATGTTTATCCGCATCTCCACCCGCCTTCCCTCCAAGTACCTCTATGGCTTTGGGGAAACTGAGCACAGGTCCTATAGGAGAGACTTGGAGTGGCACACTTGGGGGATGTTCTCCCGAGACCAGCCCCCAGGGTACAAGAAGAATTCCTATGGTGTCCACCCCTACTACATGGGGCTGGAGGAGGACGGCAGTGCCCATGGAGTGCTCCTGCTGAACAGCAATGCCATGGATGTGACGTTCCAGCCCCTGCCTGCCTTGACATACCGCACCACAGGGGGAGTTCTGGACTTTTATGTGTTCTTGGGGCCGACTCCAGAGCTTGTCACCCAGCAGTACACTGAGTTGATTGGCCGGCCTGTGATGGTACCTTACTGGTCTTTGGGGTTCCAGCTGTGTCGCTATGGCTACCAGAATGACTCTGAGATCGCCAGCTTGTATGATGAGATGGTGGCTGCCCAGATCCCTTATGATGTGCAGTACTCAGACATCGACTACATGGAGCGGCAGCTGGACTTCACCCTCAGCCCCAAGTTTGCTGGGTTTCCAGCTCTGATCAATCGCATGAAGGCTGATGGGATGCGGGTCATCCTCATTCTGGATCCAGCCATTTCTGGCAATGAGACACAGCCTTATCCTGCCTTCACTCGGGGCGTGGAGGATGACGTCTTCATCAAATACCCAAATGATGGAGACATTGTCTGGGGAAAGGTCTGGCCTGATTTTCCTGATGTTGTTGTGAATGGGTCTCTAGACTGGGACAGCCAAGTGGAGCTATATCGAGCTTATGTGGCCTTCCCAGACTTTTTCCGTAATTCAACTGCCAAGTGGTGGAAGAGGGAAATAGAAGAACTATACAACAATCCACAGAATCCAGAGAGGAGCTTGAAGTTTGATGGCATGTGGATTGATATGAATGAACCATCAAGCTTCGTGAATGGGGCAGTTTCTCCAGGCTGCAGGGACGCCTCTCTGAACCACCCTCCCTACATGCCACATTTGGAGTCCAGGGACAGGGGCCTGAGCAGCAAGACCCTTTGTATGGAGAGTCAGCAGATCCTCCCAGACGGCTCCCTGGTGCAGCACTACAACGTGCACAACCTGTATGGGTGGTCCCAGACCAGACCCACATACGAAGCCGTGCAGGAGGTGACGGGACAGCGAGGGGTCGTCATCACCCGCTCCACATTTCCCTCTTCTGGCCGCTGGGCAGGACATTGGCTGGGAGACAACACGGCCGCATGGGATCAGCTGAAGAAGTCTATCATTGGCATGATGGAGTTCAGCCTCTTCGGCATATCCTATACGGGAGCAGATATCTGTGGGTTCTTTCAAGATGCTGAATATGAGATGTGTGTTCGCTGGATGCAGCTGGGGGCCTTTTACCCCTTCTCAAGAAACCACAACACCATTGGGACCAGGAGACAAGACCCTGTGTCCTGGGATGTTGCTTTTGTGAATATTTCCAGAACTGTCCTGCAGACCAGATACACCCTGTTGCCATATCTGTATACCTTGATGCATAAGGCCCACACGGAGGGCGTCACTGTTGTGCGGCCTCTGCTCCATGAGTTTGTGTCAGACCAGGTGACATGGGACATAGACAGTCAGTTCCTGCTGGGCCCAGCCTTCCTGGTCAGCCCTGTCCTGGAGCGTAATGCCAGAAATGTCACTGCATATTTCCCTAGAGCCCGCTGGTATGATTACTACACGGGTGTGGATATTAATGCAAGAGGAGAGTGGAAGACCTTGCCAGCCCCTCTTGACCACATTAATCTTCATGTCCGTGGGGGCTACATCCTGCCCTGGCAAGAGCCTGCACTGAACACCCACTTAAGCCGCCAGAAATTCATGGGCTTCAAAATTGCCTTGGATGATGAAGGAACTGCTGGGGGCTGGCTCTTCTGGGATGATGGGCAAAGCATTGATACCTATGGGAAAGGACTCTATTACTTGGCCAGCTTTTCTGCCAGCCAGAATACGATGCAAAGCCATATAATTTTCAACAATTACATCACTGGTACAAATCCTTTGAAACTGGGCTACATTGAAATCTGGGGAGTGGGCAGTGTCCCCGTTACCAGTGTCAGCATCTCTGTGAGTGGCATGGTCATAACACCCTCCTTCAACAATGACCCCACGACACAGGTATTAAGCATCGATGTGACTGACAGAAACATCAGCCTACATAATTTTACTTCATTGACGTGGATAAGCACTCTGTGA-3'

NCBI CDS gene sequence with introns (location: 142005531.. 142105891) (100361 bp)Download

NCBI Gene Viewer (CDS + introns)

NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 141995879.. 142106747) (110869 bp)Download

NCBI Gene Viewer (CDS + introns + Untranslated regions)

NCBI gene sequence (location: [141995879 - 1000].. 142106747) (111869 bp)Download

NCBI Gene Viewer (CDS + introns + Untranslated regions + 1000 dNTP to potentially reach the promotor)

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