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RAB1A 抗体 (AA 71-195)

The 兔 多克隆 anti-RAB1A antibody is suitable to detect RAB1A in samples from 斑马鱼. It has been validated for WB 和 IHC (p).
产品编号 ABIN7876599
发货至: 中国
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Quick Overview for RAB1A 抗体 (AA 71-195) (ABIN7876599)

抗原

See all RAB1A 抗体
RAB1A (RAB1A, Member RAS Oncogene Family (RAB1A))

适用

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斑马鱼

宿主

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克隆类型

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多克隆

标记

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This RAB1A antibody is un-conjugated

应用范围

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Western Blotting (WB), Immunohistochemistry (Paraffin-embedded Sections) (IHC (p))
  • 抗原表位

    • 6
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    AA 71-195

    原理

    Zebrafish Rab1a Antibody / Rab1aa / Rab1ab

    纯化方法

    Antigen affinity chromatography

    免疫原

    E. coli-derived zebrafish Rab1a recombinant protein (amino acids R71-T195) was used as the immunogen for the Zebrafish Rab1a antibody.

    亚型

    Ig Fraction
  • 应用备注

    Optimal dilution of the Zebrafish Rab1a antibody should be determined by the researcher.

    限制

    仅限研究用
  • 状态

    Lyophilized

    缓冲液

    0.5 mg/mL if reconstituted with 0.2 mL sterile DI water

    储存条件

    4 °C,-20 °C

    储存方法

    After reconstitution, the Zebrafish Rab1a antibody can be stored for up to one month at 4oC. For long-term, aliquot and store at -20oC. Avoid repeated freezing and thawing.
  • 抗原

    RAB1A (RAB1A, Member RAS Oncogene Family (RAB1A))

    别名

    Rab1a

    背景

    Rab1a is a member of the Rab GTPase family, which regulates intracellular vesicle trafficking, membrane dynamics, and cellular processes such as secretion, endocytosis, and organelle maintenance. Rab1a is primarily involved in the regulation of the endoplasmic reticulum (ER) and Golgi apparatus communication. It plays a crucial role in the anterograde transport of proteins from the ER to the Golgi, as well as in the formation of vesicles during this process. It also participates in regulating vesicle docking and fusion, key events in cellular trafficking.

    In zebrafish, Rab1a is the ortholog of the human RAB1A gene, with a high degree of sequence conservation and functional similarity. Both the zebrafish and human versions of Rab1a share conserved GTP-binding domains and the mechanisms necessary for vesicle trafficking. The role of Rab1a in zebrafish mirrors its function in humans, supporting processes such as protein secretion, cellular homeostasis, and membrane transport. This functional conservation makes zebrafish an excellent model for studying vesicular trafficking mechanisms and associated diseases.

    In zebrafish, Rab1a exists as Rab1aa and Rab1ab, which are paralogous genes resulting from gene duplication events. Both Rab1aa and Rab1ab encode proteins with similar functions but may exhibit tissue-specific expression patterns or slight differences in their regulatory roles. While Rab1aa and Rab1ab share high sequence homology, they might have distinct roles during development or in various physiological contexts. Isoforms of Rab1a could arise through alternative splicing, allowing for specialized functions in different tissues or developmental stages.

    The Rab1a proteins, including Rab1aa and Rab1ab, play significant roles in cellular processes like vesicle formation, transport, and fusion, especially in tissues with active secretion and protein processing, such as the liver, pancreas, and neurons. These proteins are involved in maintaining the proper function of the ER and Golgi, essential for protein trafficking and cellular signaling. Their roles are particularly important in maintaining the balance of protein homeostasis in cells.

    Given the high conservation between zebrafish Rab1a (including Rab1aa and Rab1ab) and human RAB1A, zebrafish serve as an ideal model for investigating the molecular basis of diseases related to defects in vesicle trafficking, such as neurodegenerative diseases, metabolic disorders, and certain types of cancer. By studying Rab1a and its paralogs, researchers can explore therapeutic strategies aimed at modulating vesicle trafficking pathways, which could help in the treatment of these diseases.

    UniProt

    B8JLC8

    途径

    SARS-CoV-2 Protein Interactome
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