Cat: CBMOAB-0113FYC
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- Product Details
Specifications
| Host species | Mouse (Mus musculus) |
| Species Reactivity | A. thaliana (Arabidopsis thaliana) |
| Clone | MO0113FC |
| Specificity | This antibody binds to Arabidopsis AT4G23870. |
| Format | Liquid or Lyophilized |
| Storage | Store at 4°C: short-term (1-2weeks) Store at -20°C: long-term and future use |
| Purity | > 90% was determined by SDS-PAGE |
| Purification | Purified with Protein A or G affinity chromatography |
Application Information
| Application | WB, ELISA |
| Application Notes | ELISA: 1:1000-1:3000 Other applications are to be developed. The optimal dilution should be determined by the end user. |
Target
| Introduction | As low concentrations of auxin promoted GA-mediated destabilization of DELLA proteins, we also compared our microarray data with auxin-responsive genes at wild-type inflorescence tips. Only two unknown genes were identified, At4g23870 and At1g29510, which are induced by auxin and regulated by RGA. |
| Product Overview | Mouse Anti-Arabidopsis AT4G23870 (clone MO0113FC) Antibody (CBMOAB-0113FYC) is a mouse antibody against AT4G23870. It can be used for AT4G23870 detection in Western Blot, Enzyme-Linked Immunosorbent Assay. |
| Alternative Names | Putative uncharacterized protein AT4g23870; Putative uncharacterized protein At4g23870; Putative uncharacterized protein At4g23870; T32A16.40; At4g23870 At4g23870/T32A16.40 |
| UniProt ID | Q9T0A2 |
| Protein Refseq | The length of the protein is 116 amino acids long. The sequence is show below: MGNCLMGGNNVEKMVKEEEVMKKEYKRKDRKVKIVLRRDELEKLILFQLNANGNVDGKGETTLASFGDFLRELEAERSAGEAAAKAAEEEEESRRRCRKWRPSLERITEWPEETLS. |
Reference
| Reference | 1. Hou, X., Hu, W. W., Shen, L., Lee, L. Y. C., Tao, Z., Han, J. H., & Yu, H. (2008). Global identification of DELLA target genes during Arabidopsis flower development. Plant Physiology, 147(3), 1126-1142. 2. Bacete, L., Mélida, H., López, G., Dabos, P., Tremousaygue, D., Denancé, N., ... & Molina, A. (2020). Arabidopsis response regulator 6 (ARR6) modulates plant cell-wall composition and disease resistance. Molecular Plant-Microbe Interactions, 33(5), 767-780. 3. Liu, J., Shi, B., Zhang, M., Liu, G., Ding, Z., & Tian, H. (2022). Transition Zone1 Negatively Regulates Arabidopsis Aluminum Resistance Through Interaction With Aconitases. Frontiers in Plant Science, 12, 3385. |
For Research Use Only | Not For Clinical Use.