Mouse Anti-FTMT (AA 143-242) Recombinant Antibody (CBXF-3227) (CBMAB-F3922-CQ)

Name: Mouse Anti-FTMT (AA 143-242) Recombinant Antibody (CBXF-3227)
SKU: CBMAB-F3922-CQ
Rating: 5 (1 reviews)

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Datasheet

SDS

Request for COA

Datasheet Target References Q & As Review & reward Protocols Associated Products

Basic Information

Host Animal

Mouse

Clone

CBXF-3227

Application

ELISA, WB

Immunogen

FTMT (NP_803431.1, 143aa-242aa) partial recombinant protein with GST tag

Specificity

Human

Antibody Isotype

IgG

Clonality

Monoclonal

Application Notes

The COA includes recommended starting dilutions, optimal dilutions should be determined by the end user.

Formulations & Storage [For reference only, actual COA shall prevail!]

Format

Liquid

Buffer

PBS, pH 7.4

Storage

Store at +4°C short term (1-2 weeks). Aliquot and store at -20°C long term. Avoid repeated freeze/thaw cycles.

Epitope

AA 143-242

More Infomation

Target

Full Name

ferritin mitochondrial

Introduction

FTMT (Ferritin Mitochondrial) is a Protein Coding gene. Diseases associated with FTMT include Friedreich Ataxia 1 and Restless Legs Syndrome. Among its related pathways are Ferroptosis. Gene Ontology (GO) annotations related to this gene include ferric iron binding and ferroxidase activity. An important paralog of this gene is FTH1.

Entrez Gene ID

94033

UniProt ID

Q8N4E7

Alternative Names

Ferritin Mitochondrial; EC 1.16.3.1; Ferritin, Mitochondrial; Mitochondrial Ferritin; Ferritin H Subunit; MTF;

Function

Stores iron in a soluble, non-toxic, readily available form. Important for iron homeostasis. Has ferroxidase activity. Iron is taken up in the ferrous form and deposited as ferric hydroxides after oxidation.

Biological Process

Cellular iron ion homeostasis Source: BHF-UCL
Intracellular sequestering of iron ion Source: GO_Central
Iron ion transport Source: InterPro
Positive regulation of aconitate hydratase activity Source: BHF-UCL
Positive regulation of cell population proliferation Source: BHF-UCL
Positive regulation of lyase activity Source: BHF-UCL
Positive regulation of succinate dehydrogenase activity Source: BHF-UCL

Cellular Location

Mitochondrion

Fuhrmann, D. C., Becker, S., & Brüne, B. (2023). Mitochondrial ferritin expression in human macrophages is facilitated by thrombin‐mediated cleavage under hypoxia. FEBS letters, 597(2), 276-287.

Wang, X., Ma, H., Sun, J., Zheng, T., Zhao, P., Li, H., & Yang, M. (2022). Mitochondrial ferritin deficiency promotes osteoblastic ferroptosis via mitophagy in type 2 diabetic osteoporosis. Biological trace element research, 1-10.

Wang, P., Cui, Y., Liu, Y., Li, Z., Bai, H., Zhao, Y., & Chang, Y. Z. (2022). Mitochondrial ferritin alleviates apoptosis by enhancing mitochondrial bioenergetics and stimulating glucose metabolism in cerebral ischemia reperfusion. Redox Biology, 57, 102475.

Wang, P., Ren, Q., Shi, M., Liu, Y., Bai, H., & Chang, Y. Z. (2022). Overexpression of Mitochondrial Ferritin Enhances Blood–Brain Barrier Integrity following Ischemic Stroke in Mice by Maintaining Iron Homeostasis in Endothelial Cells. Antioxidants, 11(7), 1257.

Wang, P., Cui, Y., Ren, Q., Yan, B., Zhao, Y., Yu, P., ... & Chang, Y. Z. (2021). Mitochondrial ferritin attenuates cerebral ischaemia/reperfusion injury by inhibiting ferroptosis. Cell death & disease, 12(5), 447.

Levi, S., Ripamonti, M., Dardi, M., Cozzi, A., & Santambrogio, P. (2021). Mitochondrial ferritin: Its role in physiological and pathological conditions. Cells, 10(8), 1969.

Fuhrmann, D. C., Mondorf, A., Beifuß, J., Jung, M., & Brüne, B. (2020). Hypoxia inhibits ferritinophagy, increases mitochondrial ferritin, and protects from ferroptosis. Redox biology, 36, 101670.

Hara, Y., Yanatori, I., Tanaka, A., Kishi, F., Lemasters, J. J., Nishina, S., ... & Hino, K. (2020). Iron loss triggers mitophagy through induction of mitochondrial ferritin. EMBO reports, 21(11), e50202.

Wu, Q., Wu, W. S., Su, L., Zheng, X., Wu, W. Y., Santambrogio, P., ... & Chang, Y. Z. (2019). Mitochondrial ferritin is a hypoxia-inducible factor 1α-inducible gene that protects from hypoxia-induced cell death in brain. Antioxidants & redox signaling, 30(2), 198-212.

Mendsaikhan, A., Takeuchi, S., Walker, D. G., & Tooyama, I. (2019). Differences in gene expression profiles and phenotypes of differentiated SH-SY5Y neurons stably overexpressing mitochondrial ferritin. Frontiers in molecular neuroscience, 11, 470.

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Please try the standard protocols which include: protocols, troubleshooting and guide.

Enzyme-linked Immunosorbent Assay (ELISA)
Flow Cytometry
Immunofluorescence (IF)
Immunohistochemistry (IHC)
Immunoprecipitation (IP)
Western Blot (WB)
Enzyme Linked Immunospot (ELISpot)
Proteogenomic
Other Protocols

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Isotype control

For research use only. Not intended for any clinical use.

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