By Research Area
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Mouse Anti-AAV9 Recombinant Antibody (V2-634029) (CBMAB-AP023LY)
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Mouse Anti-CORO1A Recombinant Antibody (4G10) (V2LY-1206-LY806)
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Mouse Anti-AAV-5 Recombinant Antibody (V2-503416) (CBMAB-V208-1402-FY)
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Rabbit Anti-ATF4 Recombinant Antibody (D4B8) (CBMAB-A3872-YC)
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Mouse Anti-BAD (Phospho-Ser136) Recombinant Antibody (CBYY-0138) (CBMAB-0139-YY)
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Mouse Anti-CRTAM Recombinant Antibody (CBFYC-2235) (CBMAB-C2305-FY)
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Mouse Anti-DMD Recombinant Antibody (D1190) (CBMAB-D1190-YC)
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Rabbit Anti-ALOX5AP Recombinant Antibody (CBXF-1219) (CBMAB-F0750-CQ)
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Rabbit Anti-DLK1 Recombinant Antibody (9D8) (CBMAB-D1061-YC)
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Mouse Anti-ANXA7 Recombinant Antibody (A-1) (CBMAB-A2941-YC)
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Rabbit Anti-CCL5 Recombinant Antibody (R0437) (CBMAB-R0437-CN)
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Mouse Anti-COL1A2 Recombinant Antibody (CF108) (V2LY-1206-LY626)
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Mouse Anti-AFM Recombinant Antibody (V2-634159) (CBMAB-AP185LY)
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Mouse Anti-CCDC6 Recombinant Antibody (CBXC-0106) (CBMAB-C5397-CQ)
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Mouse Anti-AQP2 Recombinant Antibody (E-2) (CBMAB-A3358-YC)
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Mouse Anti-ASH1L Monoclonal Antibody (ASH5H03) (CBMAB-1372-YC)
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Mouse Anti-ADV Recombinant Antibody (V2-503423) (CBMAB-V208-1364-FY)
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Mouse Anti-CCNH Recombinant Antibody (CBFYC-1054) (CBMAB-C1111-FY)
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Mouse Anti-ACTG1 Recombinant Antibody (V2-179597) (CBMAB-A0916-YC)
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Mouse Anti-AKR1B1 Antibody (V2-2449) (CBMAB-1001CQ)
Epigenetics Research
For an extended period, the central dogma positioned the DNA sequence as the definitive repository of biological information. This paradigm, however, has been profoundly expanded by the emergence of epigenetics, a field elucidating a complex super-genomic regulatory network that governs the interpretation of the genetic blueprint itself. Fundamentally, epigenetics refers to heritable alterations in gene expression, transmitted through mitosis and in some cases meiosis, that occur without modifications to the primary DNA sequence. The orchestration of gene expression through these mechanisms is now understood to be indispensable for fundamental processes, including the establishment of cellular identity during differentiation, organismal development, and the dynamic response of an organism to its environment.
The molecular basis of epigenetic regulation involves several interconnected mechanisms. Key among these are the covalent methylation of DNA, a canonical silencing mark, and a vast repertoire of post-translational modifications (PTMs) to histone proteins. These PTMs, notably acetylation and methylation, dynamically alter chromatin architecture. For instance, acetylation typically yields a relaxed, transcriptionally permissive euchromatic state, whereas specific methylation marks like H3K9me3 and H3K27me3 promote the formation of compact, inert heterochromatin. The combinatorial interplay of these modifications, influenced by non-coding RNAs, is speculated to form a sophisticated 'epigenetic code,' enabling a highly nuanced regulatory framework.
Understanding epigenetic pathways has transcended academic pursuit to become a critical frontier in disease research. A growing body of evidence now implicates dysregulated epigenetic landscapes as a central pathological feature in a wide spectrum of human diseases. This includes various malignancies and a range of neurodegenerative and metabolic disorders, where aberrant epigenetic marks are now considered critical hallmarks. To empower your research, Creative Biolabs offers a comprehensive portfolio of highly validated antibodies targeting key epigenetic players, including specific histone modifications and DNA methyltransferases. Let us provide the precise tools you need to decipher the epigenetic code and unlock new therapeutic possibilities.
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