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抗AT-12S抗体、ウサギポリクロ
2018年07月18日 15時38分06秒
商品コード:81-123 

Background: Major 12S seed storage protein CRC (globulin) is synthesized on the endoplasmic reticulum as precursor and then transported to storage vacuoles, where it is processed at a conserved Asn-Gly peptide bond by an asparaginyl endopeptidase to produce two mature polypeptides referred to as alpha and beta subunits that are joined together by a disulfide bond. Phosphorylated in seeds on some Tyr residues in response to abscisic acid (ABA)
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-123

抗AT-2S3M抗体、ウサギポリクロ
2018年07月18日 15時37分16秒
商品コード:81-122 

Background: 2S seed storage protein 3, one of major seed storage proteins is synthesized on the endoplasmic reticulum as precursor and then transported to storage vacuoles, where it is processed by an asparaginyl endopeptidase to produce two mature polypeptides referred to as large and small subunits which are linked by disulfide bonds
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-122

抗AT-2S3P抗体、ウサギポリクロ
2018年07月18日 15時36分51秒
商品コード:81-121 

Background: 2S seed storage protein 3, one of major seed storage proteins is synthesized on the endoplasmic reticulum as precursor and then transported to storage vacuoles, where it is processed by an asparaginyl endopeptidase to produce two mature polypeptides referred to as large and small subunits which are linked by disulfide bonds
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-121

抗TGG2抗体、ウサギポリクロ
2018年07月18日 15時36分22秒
商品コード:81-111 

Background: May degrade glucosinolates (glucose residue linked by a thioglucoside bound to an amino acid derivative) to glucose, sulfate and any of the products: thiocyanates, isothiocyanates, nitriles, epithionitriles or oxazolidine-2-thiones. These toxic degradation products can deter insect herbivores. Seems to function in abscisic acid (ABA) and methyl jasmonate (MeJA) signaling in guard cells. Functionally redundant with TGG1. 

https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-111

抗TGG1抗体、ウサギポリクロ
2018年07月18日 15時35分54秒

商品コード:81-110 

Background: In Brassicaceae, the enzyme myrosinase (beta-thioglucoside glucohydrolase, TGG) degrades glucosinolates to produce toxins like thiocyanates, isothiocyanates, nitriles, epithionitriles or oxazolidine-2-thiones that deter herbivory. There are two TGG enzymes, TGG1 and TGG2, which have a redundant function.
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-110

抗Sucrose-Phosphate Synthase抗体、ウサギポリクロ
2018年07月18日 15時34分52秒
商品コード:81-039 

Background: Sucrose-phosphate synthase (SPS) plays a major role in photosynthetic sucrose synthesis by catalyzing the rate-limiting step of sucrose biosynthesis from UDP-glucose and fructose-6-phosphate. SPS is involved in the regulation of carbon partitioning in the leaves of plants. It may regulate the synthesis of sucrose and therefore play a major role as a limiting factor in the export of photo-assimilates out of the leaf. It plays a role for sucrose availability that is essential for plant growth and fiber elongation. It is required for nectar secretion.
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-039

抗Cyt f (植物)抗体、ウサギポリクロ
2018年07月18日 15時34分30秒
商品コード:81-035 

Background: Cytochrome f is a component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions.
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-035

抗Sulfite Reductase(植物)抗体、ウサギポリクロ
2018年07月18日 15時34分09秒
商品コード:81-033 

Background: Sulfite reductase (SiR) is an essential protein with sulfite reductase activity required in assimilatory sulfate reduction pathway during both primary and secondary metabolism and thus involved in development and growth. It is known as a DNA-binding protein that binds to both double-stranded and single-stranded DNA without significant sequence specificity to reversibly repress the transcriptional activity of chloroplast nucleoids by promoting DNA compaction and possibly regulate DNA replication. The sequence identity between maize and Arabidopsis SiR is 77%
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-033

抗ASN(植物)抗体、ウサギポリクロ
2018年07月18日 15時33分39秒
商品コード:81-031 

Background: Asparagine synthetase 2 (ASN2) is essential for nitrogen assimilation, distribution and remobilization within the plant via the phloem. ASN2 is expressed in leaf and ASN1 is expressed in floral organs. 
The amino acid sequences of Arabidopsis ASN1 and ASN2 are 76% identical. 
The amino acid sequences of Arabidopsis and Maize ASN2 are 73.6% identical.
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-031

抗Glutamine synthetase(植物)抗体、ウサギポリクロ
2018年07月18日 15時33分08秒
商品コード:81-029 

Background: Plays a role in the flow of nitrogen into nitrogenous organic compounds. Five root types of GS isoproteis (GS1-1~ GS1-5) and one chloroplastic GS isoprotein (GS2/GLN2) are known. The sequence identity between GS1-1 and GS2 is 65%.
https://www.bioacademia.co.jp/product_list.php?srch_keyword=81-029