AB180152

重组Anti-MDH1抗体[EPR13597(B)] - C-terminal

Anti-MDH1 antibody [EPR13597(B)] - C-terminal

RabMAb
Recombinant
KO Validated
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(13 Publications)

Rabbit Recombinant Monoclonal MDH1 antibody. C-terminal. Suitable for IP, WB, ICC/IF, Flow Cyt (Intra) and reacts with Human samples. Cited in 13 publications.

查看别名

MDHA, MDH1, Aromatic alpha-keto acid reductase, Cytosolic malate dehydrogenase, KAR

7 Images

Flow Cytometry (Intracellular) - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

Flow Cyt (Intra)

Supplier Data

Flow Cytometry (Intracellular) - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

Intracellular flow cytometric analysis of 2% paraformaldehyde-fixed HeLa cells labeling MDH1 with ab180152 at 1/20 dilution followed by Goat anti rabbit IgG (FITC) at 1/75 dilution (red), compared to a Rabbit IgG control (green).

Immunocytochemistry/ Immunofluorescence - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

ICC/IF

Supplier Data

Immunocytochemistry/ Immunofluorescence - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

Immunofluorescent analysis of 4% paraformaldehyde-fixed HeLa cells labeling MDH1 with ab180152 at 1/250 dilution, followed by Goat anti rabbit IgG (Dylight 488) at 1/250 dilution. Counter stained with DAPI.

ICC/IF

Supplier Data

Immunocytochemistry/ Immunofluorescence - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

ab180152 was shown to react with MDH1 in wild-type HAP1 cells in immunocytochemistry with loss of signal observed in a MDH1 knockout cell line. Wild-type and knockout cells were mixed and pelleted at a 1 : 1 ratio on coverslips. The cells were fixed with 4% paraformaldehyde (15 min) then permeabilized with 0.1% Triton X-100 (10min) and then blocked with 1x PBS, 0.01% Triton X-100, 5% BSA, 5% NGS. The cells were then incubated with ab180152 at 1/100 dilution overnight at 4°C followed by a further incubation at room temperature for 1h with a goat anti-rabbit secondary antibody to (Alexa Fluor® 555) at 0.5 μg/ml. Acquisition of the green (wild-type), red (antibody staining) and far-red (knockout) channels was performed. Representative grayscale images of the red channel are shown. Wild-type and knockout cells are outlined with yellow and magenta dashed line, respectively. Schematic representation of the mosaic strategy used is shown on the bottom-right panel. Image was acquired with a Zeiss(LSM-880).

This data was provided by YCharOS Inc., an open science company with the mission of characterizing commercially available antibody reagents for all human proteins. Abcam and YCharOS are working together to help address the reproducibility crisis by enabling the life science community to better evaluate commercially available antibodies.

Supplier Data

Immunoprecipitation - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

Immunoprecipitation of MDH1 in HAP1 cells. Lysates were prepared and immunoprecipitation was performed using 2 μg of ab180152 pre-coupled to Protein A beads. Samples were then washed and processed for western blot.

This data was provided by YCharOS Inc., an open science company with the mission of characterizing commercially available antibody reagents for all human proteins. Abcam and YCharOS are working together to help address the reproducibility crisis by enabling the life science community to better evaluate commercially available antibodies.

All lanes:

Immunoprecipitation - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (ab180152) at 2 µg

All lanes:

MDH1 in HAP1 cells at 2 µg

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Unknown

Immunoprecipitation - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

Western blot analysis of HepG2 cell lysate immunoprecipitated with ab180152 at 1/50 dilution followed by Goat Anti-Rabbit IgG, (H+L), Peroxidase conjugated secondary antibody at 1/1000 dilution

All lanes:

Immunoprecipitation - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (ab180152)

Predicted band size: 36 kDa

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Supplier Data

Western blot - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

All lanes:

Western blot - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (ab180152) at 1/50000 dilution

Lane 1:

Jurkat cell lysate at 20 µg

Lane 2:

HeLa cell lysate at 20 µg

Lane 3:

HepG2 cell lysate at 20 µg

Secondary

All lanes:

Goat Anti-Rabbit IgG, (H+L), Peroxidase conjugated at 1/1000 dilution

Predicted band size: 36 kDa

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Supplier Data

Western blot - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (AB180152)

ab180152 was shown to react with MDH1 in wild-type HAP1 cells in Western blot with loss of signal observed in a MDH1 knockout cell line. Wild-type HAP1 and MDH1 knockout cell lysates were subjected to SDS-PAGE. Membranes were blocked in 5% milk in TBST for 1 hr before incubation with ab180152 overnight at 4 °C at a 1/10000 dilution. Blots were incubated with secondary antibodies at 0.2 µg/mL before imaging.

This data was provided by YCharOS Inc., an open science company with the mission of characterizing commercially available antibody reagents for all human proteins. Abcam and YCharOS are working together to help address the reproducibility crisis by enabling the life science community to better evaluate commercially available antibodies.

All lanes:

Western blot - Anti-MDH1 antibody [EPR13597(B)] - C-terminal (ab180152) at 1/10000 dilution

Lane 1:

Wild-type HAP1 lysate at 20 µg

Lane 2:

MDH1 knock-out HAP1 lysate at 20 µg

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不同偶联物与剂型 (1)

Carrier free

Anti-MDH1 antibody [EPR13597(B)] - BSA and Azide free

关键信息

宿主种属

Rabbit

克隆

Monoclonal

克隆号

EPR13597(B)

亚型

IgG

不含载体蛋白

反应种属

Human

应用

Flow Cyt (Intra), ICC/IF, WB, IP

applications

免疫原

The exact immunogen used to generate this antibody is proprietary information.

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反应性数据

{ "title": "Reactivity Data", "filters": { "stats": ["", "Species", "Dilution Info", "Notes"], "tabs": { "all-applications": {"fullname" : "All Applications", "shortname": "All Applications"}, "IP" : {"fullname" : "Immunoprecipitation", "shortname":"IP"}, "WB" : {"fullname" : "Western blot", "shortname":"WB"}, "ICCIF" : {"fullname" : "Immunocytochemistry/ Immunofluorescence", "shortname":"ICC/IF"}, "FlowCytIntra" : {"fullname" : "Flow Cytometry (Intracellular)", "shortname":"Flow Cyt (Intra)"} }, "product-promise": { "all": "all", "testedAndGuaranteed": "tested", "guaranteed": "expected", "predicted": "predicted", "notRecommended": "not-recommended" } }, "values": { "Human": { "IP-species-checked": "testedAndGuaranteed", "IP-species-dilution-info": "1/50", "IP-species-notes": "", "WB-species-checked": "testedAndGuaranteed", "WB-species-dilution-info": "1/10000 - 1/50000", "WB-species-notes": "", "ICCIF-species-checked": "testedAndGuaranteed", "ICCIF-species-dilution-info": "1/250", "ICCIF-species-notes": "", "FlowCytIntra-species-checked": "testedAndGuaranteed", "FlowCytIntra-species-dilution-info": "1/20", "FlowCytIntra-species-notes": "<a href='/products/primary-antibodies/rabbit-igg-monoclonal-epr25a-isotype-control-ab172730'>ab172730</a> - Rabbit monoclonal IgG, is suitable for use as an isotype control with this antibody." }, "Mouse": { "IP-species-checked": "predicted", "IP-species-dilution-info": "", "IP-species-notes": "", "WB-species-checked": "predicted", "WB-species-dilution-info": "", "WB-species-notes": "", "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "", "FlowCytIntra-species-checked": "predicted", "FlowCytIntra-species-dilution-info": "", "FlowCytIntra-species-notes": "" }, "Rat": { "IP-species-checked": "predicted", "IP-species-dilution-info": "", "IP-species-notes": "", "WB-species-checked": "predicted", "WB-species-dilution-info": "", "WB-species-notes": "", "ICCIF-species-checked": "predicted", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "", "FlowCytIntra-species-checked": "predicted", "FlowCytIntra-species-dilution-info": "", "FlowCytIntra-species-notes": "" } } }

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产品详情

Patented technology
Our RabMAb^® technology is a patented hybridoma-based technology for making rabbit monoclonal antibodies. For details on our patents, please refer to RabMAb^® patents.

What are the advantages of a recombinant monoclonal antibody?
This product is a recombinant monoclonal antibody, which offers several advantages including:

- High batch-to-batch consistency and reproducibility
- Improved sensitivity and specificity
- Long-term security of supply
- Animal-free batch production

For more information, read more on recombinant antibodies.

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性能和储存信息

形式

Liquid

纯化工艺

Affinity purification Protein A

存储溶液

Preservative: 0.01% Sodium azide Constituents: PBS, 40% Glycerol (glycerin, glycerine), 0.05% BSA

运输条件

Blue Ice

分装信息

Upon delivery aliquot

储存信息

Avoid freeze / thaw cycle

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补充信息

This supplementary information is collated from multiple sources and compiled automatically.

The cytosolic malate dehydrogenase commonly called MDH1 or malate dehydrogenase 1 is an enzyme that plays an important role in the citric acid cycle. Its main function is to catalyze the reversible conversion of malate to oxaloacetate using NAD+ as a cofactor. This enzyme has an approximate molecular mass of 36 kDa. MDH1 is expressed in the cytosol of various cell types throughout the body. It is critical in enabling cells to efficiently convert biochemical energy from nutrients into ATP which is vital for cellular function and survival.

Biological function summary

This enzyme supports numerous cellular processes by maintaining redox balance and facilitating energy production. MDH1 acts independently and isn't part of any larger protein complex. However its efficiency directly impacts the cycling of metabolites necessary for cellular respiration and energy metabolism. By converting malate into oxaloacetate MDH1 directly influences processes critical for the maintenance of cell health and function.

Pathways

MDH1 is an integral component of the tricarboxylic acid (TCA) cycle and the malate-aspartate shuttle. In the TCA cycle it plays an important role in the conversion steps that drive energy generation within cells. Additionally the malate-aspartate shuttle is an important pathway connecting cytosolic and mitochondrial processes by facilitating the exchange of reducing equivalents. Through these pathways MDH1 interacts and collaborates with proteins like aspartate aminotransferase (GOT1) and mitochondrial malate dehydrogenase (MDH2) showcasing the interconnected nature of metabolic pathways.

Dysfunction or abnormal expression of MDH1 has been associated with various conditions including cancer and metabolic syndromes. In cancer aberrant MDH1 activity can lead to altered energy metabolism promoting tumor progression and survival. Additionally MDH1's role in glucose and lipid metabolism makes it relevant in metabolic syndrome where improper energy balance can exacerbate disease states. Proteins connected through these associations include hypoxia-inducible factor 1-alpha (HIF-1α) in cancer metabolism and insulin signaling proteins in metabolic syndromes further illustrating the broader implications of MDH1's function in health and disease.

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产品实验方案

For this product, it's our understanding that no specific protocols are required. You can visit:

Visit the General protocols
Visit the Troubleshooting

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靶点信息

Catalyzes the reduction of aromatic alpha-keto acids in the presence of NADH (PubMed : 2449162, PubMed : 3052244). Plays essential roles in the malate-aspartate shuttle and the tricarboxylic acid cycle, important in mitochondrial NADH supply for oxidative phosphorylation (PubMed : 31538237). Catalyzes the reduction of 2-oxoglutarate to 2-hydroxyglutarate, leading to elevated reactive oxygen species (ROS) (PubMed : 34012073).

See full target information MDH1

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文献 (13)

Recent publications for all applications. Explore the full list and refine your search

Clinical and translational medicine 14:e1680 PubMed38769668

2024

Targeting c-Myc transactivation by LMNA inhibits tRNA processing essential for malate-aspartate shuttle and tumour progression.

Applications

Unspecified application

Species

Unspecified reactive species

Jianqun Wang,Mei Hong,Yang Cheng,Xiaojing Wang,Dan Li,Guo Chen,Banghe Bao,Jiyu Song,Xinyi Du,Chunhui Yang,Liduan Zheng,Qiangsong Tong

Cellular and molecular life sciences : CMLS 79:356 PubMed35678904

2022

Upregulation of MDH1 acetylation by HDAC6 inhibition protects against oxidative stress-derived neuronal apoptosis following intracerebral hemorrhage.

Applications

Unspecified application

Species

Unspecified reactive species

Miao Wang,Chao Zhou,Lu Yu,Delian Kong,Weijing Ma,Bingchen Lv,Yan Wang,Weifeng Wu,Mingyue Zhou,Guiyun Cui

Redox biology 46:102065 PubMed34293554

2021

Lactate and glutamine support NADPH generation in cancer cells under glucose deprived conditions.

Applications

Unspecified application

Species

Unspecified reactive species

Minfeng Ying,Duo You,Xiaobing Zhu,Limeng Cai,Siying Zeng,Xun Hu

Journal of veterinary internal medicine : PubMed33471936

2021

Characterization of the intestinal mucosal proteome in cats with inflammatory bowel disease and alimentary small cell lymphoma.

Applications

Unspecified application

Species

Unspecified reactive species

Sina Marsilio,Floris C Dröes,Lawrence Dangott,Betty Chow,Steve Hill,Mark Ackermann,J Scott Estep,Jonathan A Lidbury,Jan S Suchodolski,Jörg M Steiner

Cancer & metabolism 8:1 PubMed31908776

2020

Tissue of origin dictates GOT1 dependence and confers synthetic lethality to radiotherapy.

Applications

Unspecified application

Species

Unspecified reactive species

Barbara S Nelson,Lin Lin,Daniel M Kremer,Cristovão M Sousa,Cecilia Cotta-Ramusino,Amy Myers,Johanna Ramos,Tina Gao,Ilya Kovalenko,Kari Wilder-Romans,Joseph Dresser,Mary Davis,Ho-Joon Lee,Zeribe C Nwosu,Scott Campit,Oksana Mashadova,Brandon N Nicolay,Zachary P Tolstyka,Christopher J Halbrook,Sriram Chandrasekaran,John M Asara,Howard C Crawford,Lewis C Cantley,Alec C Kimmelman,Daniel R Wahl,Costas A Lyssiotis

Cell metabolism 30:720-734.e5 PubMed31447323

2019

Cell Clustering Promotes a Metabolic Switch that Supports Metastatic Colonization.

Applications

Unspecified application

Species

Unspecified reactive species

Christiaan F Labuschagne,Eric C Cheung,Julianna Blagih,Marie-Charlotte Domart,Karen H Vousden

Bosnian journal of basic medical sciences 20:44-55 PubMed31215856

2019

Ketamine exerts a protective role in a cell-based model of major depressive disorder via the inhibition of apoptosis and inflammation and activation of the Krebs cycle.

Applications

Unspecified application

Species

Unspecified reactive species

Wenfei Zhang,Qian Sun,Lingling Jia,Ming Li

Acta neuropathologica 136:919-938 PubMed30140941

2018

Changes in proteome solubility indicate widespread proteostatic disruption in mouse models of neurodegenerative disease.

Applications

Unspecified application

Species

Unspecified reactive species

Michael C Pace,Guilian Xu,Susan Fromholt,John Howard,Keith Crosby,Benoit I Giasson,Jada Lewis,David R Borchelt

Cell metabolism 28:721-736.e6 PubMed30122553

2018

A Role for p53 in the Adaptation to Glutamine Starvation through the Expression of SLC1A3.

Applications

Unspecified application

Species

Unspecified reactive species

Mylène Tajan,Andreas K Hock,Julianna Blagih,Neil A Robertson,Christiaan F Labuschagne,Flore Kruiswijk,Timothy J Humpton,Peter D Adams,Karen H Vousden

Molecular cell 69:581-593.e7 PubMed29452638

2018

NADH Shuttling Couples Cytosolic Reductive Carboxylation of Glutamine with Glycolysis in Cells with Mitochondrial Dysfunction.

Applications

Unspecified application

Species

Unspecified reactive species

Edoardo Gaude,Christina Schmidt,Payam A Gammage,Aurelien Dugourd,Thomas Blacker,Sew Peak Chew,Julio Saez-Rodriguez,John S O'Neill,Gyorgy Szabadkai,Michal Minczuk,Christian Frezza

View all publications

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重组Anti-MDH1抗体[EPR13597(B)] - C-terminal