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相关概念视频

Phosphorylation01:02

Phosphorylation

51.3K
The addition or removal of phosphate groups from proteins is the most common chemical modification that regulates cellular processes. These modifications can affect the structure, activity, stability, and localization of proteins within cells as well as their interactions with other proteins.
During phosphorylation, protein kinases transfer the terminal phosphate group of ATP to specific amino acid side chains of substrate proteins. Serine, threonine, and tyrosine are the most commonly...
51.3K
Protein Kinases and Phosphatases02:54

Protein Kinases and Phosphatases

13.5K
Proteins undergo chemical modifications that trigger changes in the charge, structure, and conformation of the proteins. Phosphorylation, acetylation, glycosylation, nitrosylation, ubiquitination, lipidation, methylation, and proteolysis are various protein modifications that regulate protein activity. Such modifications are usually enzyme-driven.
Protein kinases
Many proteins in the cell are regulated by phosphorylation, the addition of a phosphate group. A family of enzymes called kinases...
13.5K
PI3K/mTOR/AKT Signaling Pathway01:22

PI3K/mTOR/AKT Signaling Pathway

4.0K
The mammalian target of rapamycin  (mTOR) is a serine/threonine kinase that regulates growth, proliferation, and cell survival in response to hormones, growth factors, or nutrient availability. This kinase exists in two structurally and functionally distinct forms: mTOR complex 1  (mTORC1) and mTOR complex 2  (mTORC2). The first form (mTORC1) is composed of a rapamycin-sensitive Raptor and proline-rich Akt substrate, PRAS40. In contrast,  mTORC2 consists of a...
4.0K
Amplifying Signals via Enzymatic Cascade01:22

Amplifying Signals via Enzymatic Cascade

9.9K
When a ligand binds to a cell-surface receptor, the receptor's intracellular domain changes shape, which may either activate its enzyme function or allow its binding to other molecules. The initial signal is amplified by most signal transduction pathways. This means that a single ligand molecule can activate multiple molecules of a downstream target. Proteins that relay a signal are most commonly phosphorylated at one or more sites, activating or inactivating the protein. Kinases catalyze...
9.9K
Amplifying Signals via Second Messengers01:15

Amplifying Signals via Second Messengers

7.3K
Many receptor binding ligands are hydrophilic; they do not cross the cell membrane but bind to cell-surface receptors. Thus, their message must be relayed by second messengers present in the cell cytoplasm. There are several second messenger pathways, each with its own way of relaying information. For example, the G protein-coupled receptors can activate both phosphoinositol and cyclic AMP (cAMP) second messenger pathways. The phosphoinositol pathway is active when the receptor induces...
7.3K
Calmodulin-dependent Signaling01:16

Calmodulin-dependent Signaling

5.3K
Calmodulin (CaM) is a calcium-binding protein in eukaryotes that controls various calcium-regulated cellular processes. It has four calcium-binding sites that bind calcium to form the calcium-calmodulin ( Ca2+-CaM) complex. GPCR stimulation increases the calcium levels in the cells that bind to CaM and induces a conformational change.
The Ca2+-CaM complex does not have enzymatic activity by itself. Instead, the complex binds downstream target proteins, including membrane proteins or enzymes,...
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Oligopeptide Competition Assay for Phosphorylation Site Determination
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酸化诱导分子用于调节动态细胞过程.

Rajaiah Pergu, Sreekanth Vedagopuram, Praveen Kokkonda

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    概括
    此摘要是机器生成的。

    使用诱导酸化的化学小分子 (PHICS) 的新平台在生理条件下实现了向蛋白质酸化. 这种先进的控制细胞过程,如瘤信号和神经元相位分离精确.

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    科学领域:

    • 生物化学 生物化学
    • 细胞生物学 细胞生物学
    • 分子医学是分子医学.

    背景情况:

    • 蛋白质酸化对于细胞信号和信息传输至关重要.
    • 现有的酸化诱导化学小分子 (PHICS) 有局限性,包括血清饥饿,目标过度表达,有限的复杂招募和控制不良.

    研究的目的:

    • 开发一个改进的AMPK PHICS平台,用于向蛋白质酸化.
    • 为了使PHICS在生理条件下应用,并加强控制和更广泛的复杂招聘.

    主要方法:

    • 开发一个新的AMPK PHICS平台.
    • 在控制瘤信号和神经元相位分离方面展示平台的实用性.
    • 应用PHICS以准布鲁顿的氨酸激酶 (BTK) 和Liprin-α3.3.

    主要成果:

    • 新的PHICS平台在没有血清饥饿或目标过度表达的情况下运行.
    • 它招募多个AMP激活蛋白激酶 (AMPK) 复合体,并提供剂量和时间控制.
    • 针对BTK的PHICS通过减弱瘤信号来诱导耐药癌细胞的死亡.
    • PHICS的目标是使用Liprin-α3控制的神经元相分离.

    结论:

    • 开发的AMPK PHICS平台克服了以前系统的局限性.
    • 它为动态细胞过程提供了对蛋白质酸化的精确控制.
    • 这个平台具有基础研究和生物医学应用的巨大潜力.