RFP Antibodies
- Cellular Localization and Protein Trafficking: Researchers can fuse the RFP protein to their protein of interest. By using an RFP antibody, they can detect the presence and subcellular localization of the fusion protein within cells. This helps in understanding the dynamics and movement of proteins within cellular compartments.
- Gene Expression Studies: RFP can also be used as a marker for gene expression. Researchers can use RFP-tagged constructs to monitor the expression of specific genes. Antibodies against RFP are then used to detect the RFP-tagged protein produced from these genes.
- Protein Interaction Studies: RFP can be used in protein-protein interaction studies. Proteins of interest are tagged with RFP and their interactions with other proteins are investigated. Antibodies against RFP can then be used to detect these interactions either through immunoprecipitation or other methods.
- Live Cell Imaging: RFP-tagged proteins can be imaged in real-time within live cells using fluorescence microscopy. This allows researchers to track protein dynamics, localization changes, and cellular responses in real-time.
- Flow Cytometry: Antibodies against RFP can be used in flow cytometry (FACS) to quantify the expression levels of RFP-tagged proteins in a population of cells. This is particularly useful for high-throughput studies.
- High-Content Screening: RFP antibodies can be used in high-content screening assays to study various cellular processes and responses across large sets of conditions or compounds.
- Visualization of Cellular Structures: RFP can be fused to specific cellular structures such as organelles, cytoskeletal components, or membranes. Antibodies against RFP allow researchers to visualize these structures and their dynamics.
- Co-localization Studies: Antibodies against RFP can be used in combination with antibodies against other fluorescent proteins to study co-localization and potential interactions between different cellular components.
RFP antibody (ABIN129578)
RFP Reactivity: Discosoma WB, ELISA, IF, IHC, IP, FACS, IHC (fro), IHC (p) Host: Rabbit Polyclonal unconjugated
RFP Reactivity: Discosoma WB, ELISA, IP, FACS, FM Host: Mouse Monoclonal 8E5-G7 unconjugated
RFP Reactivity: Discosoma WB, IF, IHC (fro), IHC (p) Host: Goat Polyclonal unconjugated
RFP Antibodies by Reactivity
Find RFP Antibodies for a variety of species such as anti-Discosoma RFP. The species listed below are among those available. Click on a link to go to the corresponding products.
RFP Antibodies by Host
Find RFP Antibodies with a specific Host. The Host listed below are among those available. Click on a link to go to the corresponding products.
RFP Antibodies by Binding Specificity
Find RFP Antibodies with a specific epitope. The epitopes listed below are among those available. Click on a link to go to the corresponding products.
RFP Antibodies by Clonality
Find available monoclonal or polyclonal RFP Antibodies. Click on a link to go to the corresponding products.
RFP Antibodies by Clone
Find RFP Antibodies with a specific Clone. The Clone listed below are among those available. Click on a link to go to the corresponding products.
RFP Antibodies by Fragment
Find RFP Antibodies with a specific Fragment. The Fragment listed below are among those available. Click on a link to go to the corresponding products.
Popular RFP Antibodies
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Latest Publications for our RFP Antibodies
: "Injury primes mutation-bearing astrocytes for dedifferentiation in later life." in: Current biology : CB, (2023) (PubMed).: "Diet suppresses glioblastoma initiation in mice by maintaining quiescence of mutation-bearing neural stem cells." in: Developmental cell, (2023) (PubMed).
: "Molecular sensing of mechano- and ligand-dependent adhesion GPCR dissociation." in: Nature, Vol. 615, Issue 7954, pp. 945-953, (2023) (PubMed).
: "Overexpression of Lin28A in neural progenitor cells in vivo does not lead to brain tumor formation but results in reduced spine density." in: Acta neuropathologica communications, Vol. 9, Issue 1, pp. 185, (2022) (PubMed).
: "A versatile viral toolkit for functional discovery in the nervous system. ..." in: Cell reports methods, Vol. 2, Issue 6, pp. 100225, (2022) (PubMed).
: "Axon guidance at the spinal cord midline-A live imaging perspective." in: The Journal of comparative neurology, (2021) (PubMed).
: "Gene regulatory networks controlling differentiation, survival, and diversification of hypothalamic Lhx6-expressing GABAergic neurons." in: Communications biology, Vol. 4, Issue 1, pp. 95, (2021) (PubMed).
: "Extrinsic Regulators of mRNA Translation in Developing Brain: Story of WNTs." in: Cells, Vol. 10, Issue 2, (2021) (PubMed).
: "Co-activation of Sonic hedgehog and Wnt signaling in murine retinal precursor cells drives ocular lesions with features of intraocular medulloepithelioma." in: Oncogenesis, Vol. 10, Issue 11, pp. 78, (2021) (PubMed).
: "The white matter is a pro-differentiative niche for glioblastoma." in: Nature communications, Vol. 12, Issue 1, pp. 2184, (2021) (PubMed).
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