星品推荐 | Agrisera光合作用抗体(Global antibodies)

植物光合作包括光能的吸收、能量转换、电子传递、ATP的合成以及CO2的固定等步骤,这一过程主要在植物的叶绿的类囊体膜上完成的。类囊体膜上存在四种关键的蛋白复合体:光系统IIPS IICytb6/f复合体、光系统IPS IATP合成酶这四种复合体协同作用,共同完成光反应。光系统II上具有捕光色素复合体(LHC)构成的天线系统,可以捕获光能,而光系统I则利捕获的能量进行原初光化学反应。Cytb6/f复合体在电子传递过程中起着至关重要的作用,ATP合成酶则负责合成ATP,为植物细胞提供能量。


产品名称

货号

实验类型

ATP synthase

AtpA | Alpha subunit of ATP synthase, chloroplastic

AS08 304

IP,WB

AtpB | Beta subunit of ATP synthase, chloroplastic + mitoch (rabbit)

AS05 085

BN-PAGE,IF,WB

AtpC | Gamma subunit of ATP synthase, chloroplastic

AS08 312

WB

Electron transfer

Cyt b6/PetB | Thylakoid membrane cytochrome b6 protein, N terminal

AS18 4169

BN-PAGE,WB

Fd | Ferredoxin 1 (chloroplastic)

AS11 1757

WB

PetC | Rieske iron-sulfur protein of Cyt b6/f complex

AS08 330

WB

LHC

Lhca1 | PSI type I chlorophyll a/b-binding protein

AS01 005

WB

Lhcb2 | LHCII type II chlorophyll a/b-binding protein

AS01 003

IP,WB

Lhcb3 | LHCII type III chlorophyll a/b-binding protein

AS01 002

WB

PSI (Photosystem I)

PsaA | PSI-A core protein of photosystem I

AS06 172

IG,WB

PsaB | PSI-B core subunit of photosystem I

AS10 695

WB

PsaC | PSI-C core subunit of photosystem I

AS10 939

WB

PSII (Photosystem II)

PsbA | D1 protein of PSII, C-terminal

AS05 084

WB

PsbB | CP47 protein of PSII

AS04 038

WB

PsbC | CP43 protein of PSII

AS11 1787

WB

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应用案例
western blot using anti-Lhcb1 antibody

AS09 522应用示例

 



western blot using anti-PsaA antibodies

AS06 172应用示例

 

Agrisera抗体发表文献

Sulli et al. (2023). Generation and physiological characterization of genomeedited Nicotiana benthamiana plants containing zeaxanthin as the only leaf xanthophyll. Planta . 2023 Oct 5;258(5):93. doi: 10.1007/s00425-023-04248-3.

Ye et al. (2023). The light-harvesting chlorophyll a/b-binding proteins of photosystem II family members are responsible for temperature sensitivity and leaf color phenotype in albino tea plant. J Adv Res . 2023 Dec 25:S2090-1232(23)00404-6.doi: 10.1016/j.jare.2023.12.017.

Penzler et al. (2024). A pgr5 suppressor screen uncovers two distinct suppression mechanisms and links cytochrome b6f complex stability to PGR5. Plant Cell. 2024 Mar 27:koae098. doi: 10.1093/plcell/koae098.

Mu et al. (2024). Plastid HSP90C C-terminal extension region plays a regulatory role in chaperone activity and client binding.Plant J. 2024 Jul 5.doi: 10.1111/tpj.16917.

Rubisco

CO2的固定是利用光反应产生的ATPNADPH合成有机物的过程,该过程称为卡尔文循环。1,5二磷酸核酮糖羧化/加氧酶(Rubisco)是CO2固定过程中的关键限速酶,催化CO2RuBP(核酮糖-1,5-二磷酸)发生羧化、然后裂解形成两个PGA(甘油酸-3-磷酸)分子。所有光合生物都具有由8个大亚基RbcL8个小亚基Rbcs组成的IRubisco,且RbcL折叠到其天然状态依赖于叶绿体定位的分子伴侣CPN60的作用。

 

产品名称

货号

实验类型

CAH3 | Carbonic anhydrase

AS05 073

IF, IG, WB

CPN60A1 | Chaperonin 60 subunit alpha 1, chloroplastic

AS12 2613

WB

CsoS1A/B/C | Major carboxysome shell protein 1A, AB, 1C

AS14 2760

WB

EPSP synthase | 3-phosphoshikimate 1-carboxyvinyltransferase

AS14 2782

WB

EPYC1 | Essential Pyrenoid Component 1

AS19 4312

WB

Lci5 | Low carbon dioxide induced protein number 5

AS05 090

IHC, WB

NADP-ME | NADP-malic enzyme, chloroplastic (dicots/monocots)

AS21 4580

WB

PEPC | Phosphoenolpyruvate carboxylase

AS09 458

IL, WB

PEPCK | PEP carboxykinase

AS07 241

WB

PRK ribulose-5-P-kinase | Phosphoribulokinase

AS07 257

WB

RA | Rubisco activase

AS10 700

WB

RAF2 | Rubisco accumulation factor 2

AS13 2729

WB

RbcL | Rubisco large subunit, form I (rabbit)

AS03 037

IF, IG, TP, WB

RbcL II | Rubisco large subunit, form II

AS15 2955

IF, WB

RbcS | Rubisco small subunit (SSU)

AS07 259

WB

RbcS | Rubisco small subunit (Algal)

AS22 4825

WB

Rubisco | 557 kDa hexadecamer

AS07 218

IL, WB

Rubisco ELISA quantitation kit

AS15 2994

WB

SBPase | Sedoheptulose-1,7-bis phosphatase

AS15 2873

WB

TKL1 | Transketolase (chloroplastic)

AS15 2903

IP, WB

Trxf1/2 | Thioredoxin F1/F2 (chloroplastic)

AS14 2808

WB

TrxM1/M2 | Thioredoxin M1/M2 (chloroplastic)

AS14 2809

WB

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应用案例



AS21 4580应用示例



fluorescent western blot detection of Rubisco

AS03 037应用示例


Agrisera抗体发表文献

Phukan et al. (2024). Externally supplied ascorbic acid moderates detrimental effects of UV-C exposure in cyanobacteria. Photochem Photobiol Sci. 2024 Jul 12. doi: 10.1007/s43630-024-00612-8.

Zhao et al. (2024). Psb28 protein is indispensable for stable accumulation of PSII core complexes in Arabidopsis.Plant J. 2024 May 26. doi: 10.1111/tpj.16844. 

Ciesielska et al. (2024). S2P2-the chloroplast-located intramembrane protease and its impact on the stoichiometry and functioning of the photosynthetic apparatus of A. thaliana. Front Plant Sci. 2024 Mar 15:15:1372318. doi: 10.3389/fpls.2024.1372318.

 


西美杰代理的瑞典Agrisera公司自1980年成立以来,一直专注于开发高质量的植物单克隆和多克隆抗体,并以其卓越的研发实力和生产技术,在全球植物抗体领域占据着领导地位。其产品线覆盖了广泛的物种范围,在Agrisera的产品目录中包含了众多模式植物和重要农作物,如拟南芥、水稻、小麦、玉米和番茄超过三十种植物,满足各植物学研究需求的广泛抗体库。有众多已发表文献支持,确保研究结果的准确性和可靠性

北京西美杰科技有限公司是Agrisera品牌中国区代理,致力于为国内广大科研工作者提供优质的免疫学产品和服务。如果您对上述产品感兴趣,欢迎致电西美杰全国客服热线400-050-4006或登录官方网站www.xmjsci.com了解更多信息。

 

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