[1]	NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]. STRAIN=cv. Columbia; DOI=10.1038/35048507; PubMed=11130714 [NCBI, ExPASy, EBI, Israel, Japan] Tabata S., Kaneko T., Nakamura Y., Kotani H., Kato T., Asamizu E., Miyajima N., Sasamoto S., Kimura T., Hosouchi T., Kawashima K., Kohara M., Matsumoto M., Matsuno A., Muraki A., Nakayama S., Nakazaki N., Naruo K., Okumura S., Shinpo S., Takeuchi C., Wada T., Watanabe A., Yamada M., Yasuda M., Sato S., de la Bastide M., Huang E., Spiegel L., Gnoj L., O'Shaughnessy A., Preston R., Habermann K., Murray J., Johnson D., Rohlfing T., Nelson J., Stoneking T., Pepin K., Spieth J., Sekhon M., Armstrong J., Becker M., Belter E., Cordum H., Cordes M., Courtney L., Courtney W., Dante M., Du H., Edwards J., Fryman J., Haakensen B., Lamar E., Latreille P., Leonard S., Meyer R., Mulvaney E., Ozersky P., Riley A., Strowmatt C., Wagner-McPherson C., Wollam A., Yoakum M., Bell M., Dedhia N., Parnell L., Shah R., Rodriguez M., Hoon See L., Vil D., Baker J., Kirchoff K., Toth K., King L., Bahret A., Miller B., Marra M.A., Martienssen R., McCombie W.R., Wilson R.K., Murphy G., Bancroft I., Volckaert G., Wambutt R., Duesterhoeft A., Stiekema W., Pohl T., Entian K.-D., Terryn N., Hartley N., Bent E., Johnson S., Langham S.-A., McCullagh B., Robben J., Grymonprez B., Zimmermann W., Ramsperger U., Wedler H., Balke K., Wedler E., Peters S., van Staveren M., Dirkse W., Mooijman P., Klein Lankhorst R., Weitzenegger T., Bothe G., Rose M., Hauf J., Berneiser S., Hempel S., Feldpausch M., Lamberth S., Villarroel R., Gielen J., Ardiles W., Bents O., Lemcke K., Kolesov G., Mayer K.F.X., Rudd S., Schoof H., Schueller C., Zaccaria P., Mewes H.-W., Bevan M., Fransz P.F.; "Sequence and analysis of chromosome 5 of the plant Arabidopsis thaliana."; Nature 408:823-826(2000).
[2]	NUCLEOTIDE SEQUENCE [LARGE SCALE MRNA]. STRAIN=cv. Columbia; DOI=10.1126/science.1088305; PubMed=14593172 [NCBI, ExPASy, EBI, Israel, Japan] Yamada K., Lim J., Dale J.M., Chen H., Shinn P., Palm C.J., Southwick A.M., Wu H.C., Kim C.J., Nguyen M., Pham P.K., Cheuk R.F., Karlin-Newmann G., Liu S.X., Lam B., Sakano H., Wu T., Yu G., Miranda M., Quach H.L., Tripp M., Chang C.H., Lee J.M., Toriumi M.J., Chan M.M., Tang C.C., Onodera C.S., Deng J.M., Akiyama K., Ansari Y., Arakawa T., Banh J., Banno F., Bowser L., Brooks S.Y., Carninci P., Chao Q., Choy N., Enju A., Goldsmith A.D., Gurjal M., Hansen N.F., Hayashizaki Y., Johnson-Hopson C., Hsuan V.W., Iida K., Karnes M., Khan S., Koesema E., Ishida J., Jiang P.X., Jones T., Kawai J., Kamiya A., Meyers C., Nakajima M., Narusaka M., Seki M., Sakurai T., Satou M., Tamse R., Vaysberg M., Wallender E.K., Wong C., Yamamura Y., Yuan S., Shinozaki K., Davis R.W., Theologis A., Ecker J.R.; "Empirical analysis of transcriptional activity in the Arabidopsis genome."; Science 302:842-846(2003).
[3]	NUCLEOTIDE SEQUENCE [MRNA] OF 105-596. STRAIN=cv. Columbia; Fink A., Greppin H., Tacchini P.; "Nucleotide sequence of a cDNA encoding the glucose-6-phosphate dehydrogenase from Arabidopsis thaliana."; Submitted (JAN-1995) to the EMBL/GenBank/DDBJ databases.

Comments

FUNCTION: Catalyzes the rate-limiting step of the oxidative pentose-phosphate pathway, which represents a route for the dissimilation of carbohydrates besides glycolysis. The main function of this enzyme is to provide reducing power (NADPH) and pentose phosphates for fatty acid and nucleic acid synthesis which are involved in membrane synthesis and cell division.
CATALYTIC ACTIVITY: D-glucose 6-phosphate + NADP⁺ = D-glucono-1,5-lactone 6-phosphate + NADPH.
ENZYME REGULATION: Regulated by metabolites. Post-translationally inactivated by cysteine-mediated redox modification via the ferredoxin-thioredoxin system in the light and this avoids futile cycles with photosynthetic CO2 fixation (By similarity).
PATHWAY: Carbohydrate degradation; pentose phosphate pathway; D-ribulose 5-phosphate from D-glucose 6-phosphate (oxidative stage): step 1/3 .
SUBUNIT: Homodimer (By similarity).
SUBCELLULAR LOCATION: Plastid, chloroplast.
DEVELOPMENTAL STAGE: Increase of activity in the apex linked to the early stages of the transition from vegetative to reproductive growth.
MISCELLANEOUS: There are 6 glucose-6-phosphate 1-dehydrogenase genes in A.thaliana.
SIMILARITY: Belongs to the glucose-6-phosphate dehydrogenase family.
SEQUENCE CAUTION:
- Sequence=CAC05439.1; Type=Erroneous gene model prediction;

Copyright

Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms. Distributed under the Creative Commons Attribution-NoDerivs License.

Cross-references

Sequence databases

EMBL

AL391711; CAC05439.1; ALT_SEQ; Genomic_DNA.	[EMBL / GenBank / DDBJ] [CoDingSequence]
AY065042; AAL57678.1; -; mRNA.	[EMBL / GenBank / DDBJ] [CoDingSequence]
X84229; CAA59011.1; -; mRNA.	[EMBL / GenBank / DDBJ] [CoDingSequence]

S71245; S71245.

NP_196815.2; -.

3D structure databases

HSSP

P11413; 1QKI. [HSSP ENTRY / PDB]

ModBase

Q9FY99.

Organism-specific databases

TAIR

At5g13110; -.

Gene expression databases

ArrayExpress

Q9FY99; -.

GermOnline

AT5G13110; Arabidopsis thaliana.

Ontologies

GO:0009507;	Cellular component: chloroplast (inferred from electronic annotation from UniProtKB-KW).
GO:0005488;	Molecular function: binding (inferred from electronic annotation from InterPro).
GO:0004345;	Molecular function: glucose-6-phosphate dehydrogenase activity (inferred from electronic annotation from InterPro).
GO:0006006;	Biological process: glucose metabolic process (inferred from electronic annotation from InterPro).
GO:0055114;	Biological process: oxidation reduction (inferred from electronic annotation from UniProtKB-KW).
QuickGo view.

Family and domain databases

InterPro

IPR001282; Glc-6-P_DHase.
IPR016040; NAD(P)-bd.
Graphical view of domain structure.

Gene3D

G3DSA:3.40.50.720; NAD(P)-bd; 1.

PANTHER

PTHR23429; G6PDH; 1.

Pfam

PF02781; G6PD_C; 1.
PF00479; G6PD_N; 1.
Pfam graphical view of domain structure.

PRINTS

PR00079; G6PDHDRGNASE.

ProDom

PD001129; G6PD; 1.
[Domain structure / List of seq. sharing at least 1 domain]

TIGRFAMs

TIGR00871; zwf; 1.

PROSITE

PS00069; G6P_DEHYDROGENASE; 1.

ProtoNet

Q9FY99.

Genome annotation databases

GeneID

831150; -.

GenomeReviews

BA000015_GR; AT5G13110.

KEGG

ath:AT5G13110; -.

NMPDR

fig|3702.1.peg.23426; -.

Other

UniRef

View cluster of proteins with at least 50% / 90% / 100% identity.

Keywords

Carbohydrate metabolism; Chloroplast; Complete proteome; Glucose metabolism; NADP; Oxidoreductase; Plastid; Transit peptide.

Features

Feature table viewer

`Key`	`From To`	`Length`	`Description`	`FTId`
`TRANSIT`	`1 50`	`50`	`Chloroplast (Potential).`
`CHAIN`	`51 596`	`546`	`Glucose-6-phosphate 1-dehydrogenase 2, chloroplastic.`	`PRO_0000010436`
`ACT_SITE`	`345 345`		`Proton acceptor (By similarity).`
`BINDING`	`118 118`		`NADP (By similarity).`
`BINDING`	`150 150`		`NADP (By similarity).`
`BINDING`	`283 283`		`Substrate (By similarity).`
`BINDING`	`287 287`		`Substrate (By similarity).`
`DISULFID`	`168 176`		`Redox modulation (By similarity).`
`CONFLICT`	`145 145`		`I -> V (in Ref. 3; CAA59011).`
`CONFLICT`	`190 190`		`H -> I (in Ref. 3; CAA59011).`
`CONFLICT`	`201 201`		`T -> I (in Ref. 3; CAA59011).`
`CONFLICT`	`489 489`		`L -> F (in Ref. 3; CAA59011).`
`CONFLICT`	`542 542`		`D -> G (in Ref. 2; AAL57678).`

Sequence information

Length: 596 AA [This is the length of the unprocessed precursor]

Molecular weight: 67160 Da [This is the MW of the unprocessed precursor]

CRC64: BDD89BEB49EF6E3B [This is a checksum on the sequence]

        10         20         30         40         50         60 
MAALSSSVTT RSYHSGYLAS FSPVNGDRHR SLSFLSASPQ GLNPLDLCVR FQRKSGRASV 

        70         80         90        100        110        120 
FMQDGAIVTN SNSSESKTSL KGLKDEVLSA LSQEAAKVGV ESDGQSQSTV SITVVGASGD 

       130        140        150        160        170        180 
LAKKKIFPAL FALYYEGCLP EHFTIFGYSR SKMTDVELRN MVSKTLTCRI DKRANCGEKM 

       190        200        210        220        230        240 
EEFLKRCFYH SGQYDSQEHF TELDKKLKEH EAGRISNRLF YLSIPPNIFV DAVKCASTSA 

       250        260        270        280        290        300 
SSVNGWTRVI VEKPFGRDSE TSAALTKSLK QYLEEDQIFR IDHYLGKELV ENLSVLRFSN 

       310        320        330        340        350        360 
LIFEPLWSRQ YIRNVQFIFS EDFGTEGRGG YFDNYGIIRD IMQNHLLQIL ALFAMETPVS 

       370        380        390        400        410        420 
LDAEDIRNEK VKVLRSMRPI RVEDVVIGQY KSHTKGGVTY PAYTDDKTVP KGSLTPTFAA 

       430        440        450        460        470        480 
AALFIDNARW DGVPFLMKAG KALHTRSAEI RVQFRHVPGN LYNRNTGSDL DQATNELVIR 

       490        500        510        520        530        540 
VQPDEAIYLK INNKVPGLGM RLDRSNLNLL YSARYSKEIP DAYERLLLDA IEGERRLFIR 

       550        560        570        580        590 
SDELDAAWSL FTPLLKEIEE KKRIPEYYPY GSRGPVGAHY LAAKHKVQWG DVSIDQ

Q9FY99 in FASTA format

View entry in original UniProtKB/Swiss-Prot format
View entry in raw text format (no links)
Report form for errors/updates in this UniProtKB/Swiss-Prot entry

	BLAST submission on ExPASy/SIB or at NCBI (USA)		Sequence analysis tools: ProtParam, ProtScale, Compute pI/Mw, PeptideMass, PeptideCutter, Dotlet (Java)
	ScanProsite, MotifScan		Submit a homology modeling request to SWISS-MODEL
	NPSA Sequence analysis tools