Succinate-semialdehyde dehydrogenase Recombinant Protein | ALDH5A1 recombinant protein

Recombinant Human Succinate-semialdehyde dehydrogenase, mitochondrial

Cat. Num. AAA955219

• Gene Names: ALDH5A1; SSDH; SSADH
• Purity: Greater or equal to 85% purity as determined by SDS-PAGE.
• Synonyms: Succinate-semialdehyde dehydrogenase; Recombinant Human Succinate-semialdehyde dehydrogenase; mitochondrial; Aldehyde dehydrogenase family 5 member A1; A1NAD(+)-dependent succinic semialdehyde dehydrogenase; ALDH5A1 recombinant protein

• Host: E Coli or Yeast or Baculovirus or Mammalian Cell
• Purity/Purification: Greater or equal to 85% purity as determined by SDS-PAGE.
• Form/Format: Lyophilized or liquid (Format to be determined during the manufacturing process)
• Sequence Positions: 48-535. Full Length of Mature Protein
• Sequence: AGRLAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTCVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL

• Preparation and Storage: Store at -20 degree C, for extended storage, conserve at -20 degree C or -80 degree C.

SDS-PAGE

Related Product Information for ALDH5A1 recombinant protein

Catalyzes one step in the degradation of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA).

Product Categories/Family for ALDH5A1 recombinant protein

Metabolism

References

Two exon-skipping mutations as the molecular basis of succinic semialdehyde dehydrogenase deficiency (4-hydroxybutyric aciduria) .Chambliss K.L., Hinson D.D., Trettel F., Malaspina P., Novelletto A., Jakobs C., Gibson K.M.Am. J. Hum. Genet. 63:399-408(1998) Structure of human succinic semialdehyde dehydrogenase gene identification of promoter region and alternatively processed isoforms.Blasi P., Boyl P.P., Ledda M., Novelletto A., Gibson K.M., Jakobs C., Hogema B., Akaboshi S., Loreni F., Malaspina P.Mol. Genet. Metab. 76:348-362(2002) Complete sequencing and characterization of 21,243 full-length human cDNAs.Ota T., Suzuki Y., Nishikawa T., Otsuki T., Sugiyama T., Irie R., Wakamatsu A., Hayashi K., Sato H., Nagai K., Kimura K., Makita H., Sekine M., Obayashi M., Nishi T., Shibahara T., Tanaka T., Ishii S., Yamamoto J., Saito K., Kawai Y., Isono Y., Nakamura Y., Nagahari K., Murakami K., Yasuda T., Iwayanagi T., Wagatsuma M., Shiratori A., Sudo H., Hosoiri T., Kaku Y., Kodaira H., Kondo H., Sugawara M., Takahashi M., Kanda K., Yokoi T., Furuya T., Kikkawa E., Omura Y., Abe K., Kamihara K., Katsuta N., Sato K., Tanikawa M., Yamazaki M., Ninomiya K., Ishibashi T., Yamashita H., Murakawa K., Fujimori K., Tanai H., Kimata M., Watanabe M., Hiraoka S., Chiba Y., Ishida S., Ono Y., Takiguchi S., Watanabe S., Yosida M., Hotuta T., Kusano J., Kanehori K., Takahashi-Fujii A., Hara H., Tanase T.-O., Nomura Y., Togiya S., Komai F., Hara R., Takeuchi K., Arita M., Imose N., Musashino K., Yuuki H., Oshima A., Sasaki N., Aotsuka S., Yoshikawa Y., Matsunawa H., Ichihara T., Shiohata N., Sano S., Moriya S., Momiyama H., Satoh N., Takami S., Terashima Y., Suzuki O., Nakagawa S., Senoh A., Mizoguchi H., Goto Y., Shimizu F., Wakebe H., Hishigaki H., Watanabe T., Sugiyama A., Takemoto M., Kawakami B., Yamazaki M., Watanabe K., Kumagai A., Itakura S., Fukuzumi Y., Fujimori Y., Komiyama M., Tashiro H., Tanigami A., Fujiwara T., Ono T., Yamada K., Fujii Y., Ozaki K., Hirao M., Ohmori Y., Kawabata A., Hikiji T., Kobatake N., Inagaki H., Ikema Y., Okamoto S., Okitani R., Kawakami T., Noguchi S., Itoh T., Shigeta K., Senba T., Matsumura K., Nakajima Y., Mizuno T., Morinaga M., Sasaki M., Togashi T., Oyama M., Hata H., Watanabe M., Komatsu T., Mizushima-Sugano J., Satoh T., Shirai Y., Takahashi Y., Nakagawa K., Okumura K., Nagase T., Nomura N., Kikuchi H., Masuho Y., Yamashita R., Nakai K., Yada T., Nakamura Y., Ohara O., Isogai T., Sugano S.Nat. Genet. 36:40-45(2004) The DNA sequence and analysis of human chromosome 6.Mungall A.J., Palmer S.A., Sims S.K., Edwards C.A., Ashurst J.L., Wilming L., Jones M.C., Horton R., Hunt S.E., Scott C.E., Gilbert J.G.R., Clamp M.E., Bethel G., Milne S., Ainscough R., Almeida J.P., Ambrose K.D., Andrews T.D., Ashwell R.I.S., Babbage A.K., Bagguley C.L., Bailey J., Banerjee R., Barker D.J., Barlow K.F., Bates K., Beare D.M., Beasley H., Beasley O., Bird C.P., Blakey S.E., Bray-Allen S., Brook J., Brown A.J., Brown J.Y., Burford D.C., Burrill W., Burton J., Carder C., Carter N.P., Chapman J.C., Clark S.Y., Clark G., Clee C.M., Clegg S., Cobley V., Collier R.E., Collins J.E., Colman L.K., Corby N.R., Coville G.J., Culley K.M., Dhami P., Davies J., Dunn M., Earthrowl M.E., Ellington A.E., Evans K.A., Faulkner L., Francis M.D., Frankish A., Frankland J., French L., Garner P., Garnett J., Ghori M.J., Gilby L.M., Gillson C.J., Glithero R.J., Grafham D.V., Grant M., Gribble S., Griffiths C., Griffiths M.N.D., Hall R., Halls K.S., Hammond S., Harley J.L., Hart E.A., Heath P.D., Heathcott R., Holmes S.J., Howden P.J., Howe K.L., Howell G.R., Huckle E., Humphray S.J., Humphries M.D., Hunt A.R., Johnson C.M., Joy A.A., Kay M., Keenan S.J., Kimberley A.M., King A., Laird G.K., Langford C., Lawlor S., Leongamornlert D.A., Leversha M., Lloyd C.R., Lloyd D.M., Loveland J.E., Lovell J., Martin S., Mashreghi-Mohammadi M., Maslen G.L., Matthews L., McCann O.T., McLaren S.J., McLay K., McMurray A., Moore M.J.F., Mullikin J.C., Niblett D., Nickerson T., Novik K.L., Oliver K., Overton-Larty E.K., Parker A., Patel R., Pearce A.V., Peck A.I., Phillimore B.J.C.T., Phillips S., Plumb R.W., Porter K.M., Ramsey Y., Ranby S.A., Rice C.M., Ross M.T., Searle S.M., Sehra H.K., Sheridan E., Skuce C.D., Smith S., Smith M., Spraggon L., Squares S.L., Steward C.A., Sycamore N., Tamlyn-Hall G., Tester J., Theaker A.J., Thomas D.W., Thorpe A., Tracey A., Tromans A., Tubby B., Wall M., Wallis J.M., West A.P., White S.S., Whitehead S.L., Whittaker H., Wild A., Willey D.J., Wilmer T.E., Wood J.M., Wray P.W., Wyatt J.C., Young L., Younger R.M., Bentley D.R., Coulson A., Durbin R.M., Hubbard T., Sulston J.E., Dunham I., Rogers J., Beck S.Nature 425:805-811(2003) Mural R.J., Istrail S., Sutton G., Florea L., Halpern A.L., Mobarry C.M., Lippert R., Walenz B., Shatkay H., Dew I., Miller J.R., Flanigan M.J., Edwards N.J., Bolanos R., Fasulo D., Halldorsson B.V., Hannenhalli S., Turner R., Yooseph S., Lu F., Nusskern D.R., Shue B.C., Zheng X.H., Zhong F., Delcher A.L., Huson D.H., Kravitz S.A., Mouchard L., Reinert K., Remington K.A., Clark A.G., Waterman M.S., Eichler E.E., Adams M.D., Hunkapiller M.W., Myers E.W., Venter J.C. Molecular cloning of the mature NAD(+) -dependent succinic semialdehyde dehydrogenase from rat and human. cDNA isolation, evolutionary homology, and tissue expression.Chambliss K.L., Caudle D.L., Hinson D.D., Moomaw C.R., Slaughter C.A., Jakobs C., Gibson K.M.J. Biol. Chem. 270:461-467(1995) Human succinic semialdehyde dehydrogenase. Molecular cloning and chromosomal localization.Trettel F., Malaspina P., Jodice C., Novelletto A., Slaughter C.A., Caudle D.L., Hinson D.D., Chambliss K.L., Gibson K.M.Adv. Exp. Med. Biol. 414:253-260(1997) Lysine acetylation targets protein complexes and co-regulates major cellular functions.Choudhary C., Kumar C., Gnad F., Nielsen M.L., Rehman M., Walther T.C., Olsen J.V., Mann M.Science 325:834-840(2009) Initial characterization of the human central proteome.Burkard T.R., Planyavsky M., Kaupe I., Breitwieser F.P., Buerckstuemmer T., Bennett K.L., Superti-Furga G., Colinge J.BMC Syst. Biol. 5:17-17(2011) An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome.Bian Y., Song C., Cheng K., Dong M., Wang F., Huang J., Sun D., Wang L., Ye M., Zou H.J. Proteomics 96:253-262(2014) Redox-switch modulation of human SSADH by dynamic catalytic loop.Kim Y.-G., Lee S., Kwon O.-S., Park S.-Y., Lee S.-J., Park B.-J., Kim K.-J.EMBO J. 28:959-968(2009) Prenatal diagnosis of succinic semialdehyde dehydrogenase deficiency increased accuracy employing DNA, enzyme, and metabolite analyses.Hogema B.M., Akaboshi S., Taylor M., Salomons G.S., Jakobs C., Schutgens R.B., Wilcken B., Worthington S., Maropoulos G., Grompe M., Gibson K.M.Mol. Genet. Metab. 72:218-222(2001) Mutation analysis in a patient with succinic semialdehyde dehydrogenase deficiency a compound heterozygote with 103-121del and 1460T>A of the ALDH5A1 gene.Aoshima T., Kajita M., Sekido Y., Ishiguro Y., Tsuge I., Kimura M., Yamaguchi S., Watanabe K., Shimokata K., Niwa T.Hum. Hered. 53:42-44(2002) Mutational spectrum of the succinate semialdehyde dehydrogenase (ALDH5A1) gene and functional analysis of 27 novel disease-causing mutations in patients with SSADH deficiency.Akaboshi S., Hogema B.M., Novelletto A., Malaspina P., Salomons G.S., Maropoulos G.D., Jakobs C., Grompe M., Gibson K.M.Hum. Mutat. 22:442-450(2003)

NCBI and Uniprot Product Information

• NCBI GI #: 4507229
• NCBI GeneID: 7915
• NCBI Accession #: NP_001071.1
• NCBI GenBank Nucleotide #: NM_001080.3
• UniProt Accession #: P51649; Q546H9; Q8N3W6; B2RD26; G5E949
• Molecular Weight: 54.3 kDa
• NCBI Official Full Name: succinate-semialdehyde dehydrogenase, mitochondrial isoform 2
• NCBI Official Synonym Full Names: aldehyde dehydrogenase 5 family member A1
• NCBI Official Symbol: ALDH5A1
• NCBI Official Synonym Symbols: SSDH; SSADH
• NCBI Protein Information: succinate-semialdehyde dehydrogenase, mitochondrial
• UniProt Protein Name: Succinate-semialdehyde dehydrogenase, mitochondrial
• Protein Family: Succinate-semialdehyde dehydrogenase
• UniProt Gene Name: ALDH5A1
• UniProt Synonym Gene Names: SSADH
• UniProt Entry Name: SSDH_HUMAN

NCBI Description

This protein belongs to the aldehyde dehydrogenase family of proteins. This gene encodes a mitochondrial NAD(+)-dependent succinic semialdehyde dehydrogenase. A deficiency of this enzyme, known as 4-hydroxybutyricaciduria, is a rare inborn error in the metabolism of the neurotransmitter 4-aminobutyric acid (GABA). In response to the defect, physiologic fluids from patients accumulate GHB, a compound with numerous neuromodulatory properties. Two transcript variants encoding distinct isoforms have been identified for this gene. [provided by RefSeq, Jul 2008]

Uniprot Description

ALDH5A1: Catalyzes one step in the degradation of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA). Defects in ALDH5A1 are the cause of succinate semialdehyde dehydrogenase deficiency (SSADH deficiency). SSADH deficiency is a rare inborn error in the metabolism of 4-aminobutyric acid (GABA) which leads to accumulation of 4-hydroxybutyric acid in physiologic fluids of patients. The disease is characterized by severe ataxia and by mildly retarded psychomotor development. Belongs to the aldehyde dehydrogenase family.

Protein type: Amino Acid Metabolism - alanine, aspartate and glutamate; Mitochondrial; EC 1.2.1.24; Oxidoreductase; Carbohydrate Metabolism - butanoate

Chromosomal Location of Human Ortholog: 6p22

Cellular Component: mitochondrial matrix; mitochondrion

Molecular Function: aldehyde dehydrogenase (NAD) activity; carboxylic acid binding; NAD binding; protein homodimerization activity; succinate-semialdehyde dehydrogenase [NAD(P)+] activity; succinate-semialdehyde dehydrogenase activity

Biological Process: acetate metabolic process; central nervous system development; galactosylceramide metabolic process; gamma-aminobutyric acid catabolic process; glucose metabolic process; glucosylceramide metabolic process; glutamate metabolic process; glutamine metabolic process; glutathione metabolic process; glycerophospholipid metabolic process; neurotransmitter catabolic process; neurotransmitter secretion; post-embryonic development; protein homotetramerization; short-chain fatty acid metabolic process; succinate metabolic process; synaptic transmission

Disease: Succinic Semialdehyde Dehydrogenase Deficiency

Product Notes

The ALDH5A1 aldh5a1 (Catalog #AAA955219) is a Recombinant Protein produced from E Coli or Yeast or Baculovirus or Mammalian Cell and is intended for research purposes only. The product is available for immediate purchase. The immunogen sequence is 48-535. Full Length of Mature Protein. The amino acid sequence is listed below: AGRLAGLSAA LLRTDSFVGG RWLPAAATFP VQDPASGAAL GMVADCGVRE ARAAVRAAYE AFCRWREVSA KERSSLLRKW YNLMIQNKDD LARIITAESG KPLKEAHGEI LYSAFFLEWF SEEARRVYGD IIHTPAKDRR ALVLKQPIGV AAVITPWNFP SAMITRKVGA ALAAGCTVVV KPAEDTPFSA LALAELASQA GIPSGVYNVI PCSRKNAKEV GEAICTDPLV SKISFTGSTT TGKILLHHAA NSVKRVSMEL GGLAPFIVFD SANVDQAVAG AMASKFRNTG QTCVCSNQFL VQRGIHDAFV KAFAEAMKKN LRVGNGFEEG TTQGPLINEK AVEKVEKQVN DAVSKGATVV TGGKRHQLGK NFFEPTLLCN VTQDMLCTHE ETFGPLAPVI KFDTEEEAIA IANAADVGLA GYFYSQDPAQ IWRVAEQLEV GMVGVNEGLI SSVECPFGGV KQSGLGREGS KYGIDEYLEL KYVCYGGL . It is sometimes possible for the material contained within the vial of "Succinate-semialdehyde dehydrogenase, Recombinant Protein" to become dispersed throughout the inside of the vial, particularly around the seal of said vial, during shipment and storage. We always suggest centrifuging these vials to consolidate all of the liquid away from the lid and to the bottom of the vial prior to opening. Please be advised that certain products may require dry ice for shipping and that, if this is the case, an additional dry ice fee may also be required.