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- Table of Contents
Facts about T-complex protein 1 subunit epsilon.
Known to play a role, in vitro, in the folding of actin and tubulin (By similarity). .
Mouse | |
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Gene Name: | Cct5 |
Uniprot: | P80316 |
Entrez: | 12465 |
Belongs to: |
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TCP-1 chaperonin family |
chaperonin containing TCP1, subunit 5 (epsilon); epsilon subunit
Mass (kDA):
59.624 kDA
Mouse | |
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Location: | 15|15 B2 |
Sequence: | 15; |
The CCT5 marker is a biomarker that can be used for diagnostics and clinical research. It can be neutralized with neutralizing antibodies. These are known as anti-CCL5 metabolites. Boster scientists across the globe have access to neutralizing antibodies against CCL5.
The Boster Bio AntiMCP/CXCL9 antigen reacts to mouse CXCL9, which is a member the CXC Chemokine Family. CXCL9 antibody can be used to increase chemokine production and activate integrins. These antibodies can also be used for TCM peripherization.
CCR5 functions as an HIV coreceptor. This is how HIV enters cells and spreads from one cell to another. Despite being rare during early infection, CXCR4 strains are known to be present in human cells. CCR5 receptor-targeting immunogens are designed for eliciting both mucosal as well as systemic immune responses. HIV therapy focusing on CCR5/RANTES is a possible strategy to reduce the spread of the virus.
The CCR5 chemokine receptor, also known as CCR5, is expressed on a variety of cell types. CCR5 is expressed by immune synapses as a costimulatory molecule. CCR5 not only orchestrates cellular immunity but also induces activation markers to primary T cells. CCL5 increases the proliferative response to CD4+ T cell and supports recruitment of naive, CD8+ T cell clusters to dendritic cells.
Arginine is one of the most widely studied compounds in the body. Despite its complex metabolism, the findings suggest that it may be involved in cardiovascular disease. Molecular structures and references are shown in Table 1. Table 1 lists references and molecular structures. Arginine levels in blood are generally in the 100-mM range, but intracellular concentrations can be much higher. However, the exact pathways of arginine synthesis and degradation remain unclear.
Arginine loss reduced osteoclast formation, but not completely. Resupplying arginine can compensate for the loss of osteoclast formation by increasing recArg1. The essential intermediates for osteoclast development are vital because bone remodeling relies heavily on arginine. These intermediates can be produced by the body in a dynamic metabolic adaption to maintain cell fitness. Moreover, they are used in a variety of fields of biomedicine, including bone remodeling.
It is possible to study arginine metabolism using reagents, which inhibit the synthesis by the kidney. Recombinant Arginase synthase is involved in arginine metabolism. Mutations in the enzyme can cause cell death and the production putrescine. Consequently, the effects of arginine depletion in the kidneys and liver are currently unknown.
It is also known that arginine deficiency can affect the absorption nutrients. For example, arginine deficiencies in plants can cause inhibitions in the activity four enzymes, including ammonium transporter or ammonium assimilation. These inhibitions are relieved by exogenous Argonine, which allows for normal growth and development. However, plants can suffer from a variety of negative effects if they are deficient in N.
Bosterbio.com offers neutralizing antibodies against CCL5 chemokine. The antibodies can react with Cct5 on a variety animals. Boster Bio uses rabbit and mouse to develop these antibodies. The CCL5 marker may be a subunit in the T-complex Protein that plays a role in assembly of the complex BBSome and ciliogenesis.
The CCR5 gene and its related protein are characterized. Polymorphisms of the gene are discussed, as are the evolutionary implications of the CCR5D32 variant. CCR5 plays a role in fungal disease. New studies on CCR5 and regulatory cells T cells are also discussed. Finally, a discussion is given of the CCR2-CCR5 gene region. It is not clear whether this polymorphism affects monocytes directly.
PMID: 7953530 by Kubota H., et al. Identification of six Tcp-1-related genes encoding divergent subunits of the TCP-1-containing chaperonin.
PMID: 10336634 by Kubota H., et al. Structures and co-regulated expression of the genes encoding mouse cytosolic chaperonin CCT subunits.