hnRNP C1 + C2 Products
RNA polymerase II transcripts in the nucleus are in complex with several proteins called heterogeneous nuclear ribonucleoproteins (hnRNPs). These proteins are important in biological activities such as transcription, pre-mRNA processing, cytoplasmic mRNA translation, and turnover. hnRNPs can be isolated either by immunoprecipitation or by sucrose gradient fractionation of cell extracts. When this is performed, the hnRNPs are isolated (consisting of protein groups named A to U), and many of these protein groups consist of more than one isoform. The major steadystate proteins of the isolated hnRNP complex are the A1, A2, B1, B2, C1, and C2 with a range of molecular weight starting with 34 kDa up to 43 kDa. The hnRNP-C proteins have a single RNP motif RNA-binding domain (RBD) of 80 to 100 amino acid long. The hnRNP -C proteins preferentially bind to uridine-rich RNA sequences. Oligomerization of the protein through leucine rich regions in its C-terminal end is important for RNA binding.4 Although its physiological action is unknown, mutation of the hnRNPC gene causes a embryonic lethal phenotype.
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48 results for "hnRNP C1 + C2" in Products
48 results for "hnRNP C1 + C2" in Products
hnRNP C1 + C2 Products
RNA polymerase II transcripts in the nucleus are in complex with several proteins called heterogeneous nuclear ribonucleoproteins (hnRNPs). These proteins are important in biological activities such as transcription, pre-mRNA processing, cytoplasmic mRNA translation, and turnover. hnRNPs can be isolated either by immunoprecipitation or by sucrose gradient fractionation of cell extracts. When this is performed, the hnRNPs are isolated (consisting of protein groups named A to U), and many of these protein groups consist of more than one isoform. The major steadystate proteins of the isolated hnRNP complex are the A1, A2, B1, B2, C1, and C2 with a range of molecular weight starting with 34 kDa up to 43 kDa. The hnRNP-C proteins have a single RNP motif RNA-binding domain (RBD) of 80 to 100 amino acid long. The hnRNP -C proteins preferentially bind to uridine-rich RNA sequences. Oligomerization of the protein through leucine rich regions in its C-terminal end is important for RNA binding.4 Although its physiological action is unknown, mutation of the hnRNPC gene causes a embryonic lethal phenotype.
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Applications: IHC, WB, ICC/IF, KD
Reactivity:
Human
Reactivity: | Human |
Details: | Mouse IgG2A Monoclonal Clone #CL2593 |
Applications: | IHC, WB, ICC/IF, KD |
Applications: IHC, WB, ICC/IF, KD
Reactivity:
Human
Reactivity: | Human |
Details: | Mouse IgG1 Monoclonal Clone #CL2596 |
Applications: | IHC, WB, ICC/IF, KD |
Applications: IHC, WB, ICC/IF, KD
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, KD |
Applications: IHC, WB, ELISA, ICC/IF, Flow, IP
Reactivity:
Human
Recombinant monoclonal antibody expressed in HEK293F cells
Reactivity: | Human |
Details: | Rabbit IgG Monoclonal Clone #9G1 |
Applications: | IHC, WB, ELISA, ICC/IF, Flow, +1 More |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB |
Applications: IHC, WB, ELISA, ICC/IF
Reactivity:
Human,
Mouse,
Rat
Reactivity: | Human, Mouse, Rat |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ELISA, ICC/IF |
Applications: WB, ICC/IF
Reactivity:
Human,
Mouse
Recombinant Monoclonal Antibody
Reactivity: | Human, Mouse |
Details: | Rabbit IgG Monoclonal Clone #7A10N5 |
Applications: | WB, ICC/IF |
Applications: WB, ELISA
Reactivity:
Human
Reactivity: | Human |
Details: | Mouse IgG1 kappa Monoclonal Clone #4E8 |
Applications: | WB, ELISA |
Applications: | WB |
Applications: | WB |
Applications: | WB |
Applications: | PAGE |
Applications: | AC |
Applications: | AC |
Applications: | AC |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |
Applications: IHC, WB, ICC/IF, IP
Reactivity:
Human
Reactivity: | Human |
Details: | Rabbit IgG Polyclonal |
Applications: | IHC, WB, ICC/IF, IP |