pMD18-T Simple Vector is a high-efficiency TA cloning vector constructed from pUC18, of which the initial multiple cloning sites (MCS) were destroyed. Thus the cDNA should be amplified by PCR with primers containing a restriction site for subclone. Competent cells appropriate for pUC18 are also appropriated for the Vector, e.g. JM109, DH5α, TOP10. The pMD18-T Simple Vector is 2.6kb in size. Selection of the plasmid in E. coli is conferred by the ampicillin resistance gene. The coding sequence was inserted by TA cloning at site 425.
The coding sequence can be amplified by PCR with M13-47 and RV-M primers.
|Human SerpinE1 ORF mammalian expression plasmid, C-GFPSpark tag||HG10296-ACG|
|Human SerpinE1 ORF mammalian expression plasmid, C-OFPSpark / RFP tag||HG10296-ACR|
|Human SerpinE1 ORF mammalian expression plasmid, C-Flag tag||HG10296-CF|
|Human SerpinE1 ORF mammalian expression plasmid, C-His tag||HG10296-CH|
|Human SerpinE1 ORF mammalian expression plasmid, C-Myc tag||HG10296-CM|
|Human SerpinE1 ORF mammalian expression plasmid, C-HA tag||HG10296-CY|
|Human SerpinE1 ORF mammalian expression plasmid, N-Flag tag||HG10296-NF|
|Human SerpinE1 ORF mammalian expression plasmid, N-His tag||HG10296-NH|
|Human SerpinE1 ORF mammalian expression plasmid, N-Myc tag||HG10296-NM|
|Human SerpinE1 ORF mammalian expression plasmid, N-HA tag||HG10296-NY|
|Human SerpinE1 natural ORF mammalian expression plasmid||HG10296-UT|
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Plasminogen activator inhibitor 1, also known as PAI-1, Endothelial plasminogen activator inhibitor, SerpinE1 and PLANH1, is a secreted glycoprotein which belongs to the serpin family. SerpinE1 is the primary physiological inhibitor of the two plasminogen activators urokinase (uPA) and tissue plasminogen activator (tPA). Its rapid interaction with TPA may function as a major control point in the regulation of fibrinolysis. Defects in SerpinE1 are the cause of plasminogen activator inhibitor-1 deficiency (PAI-1 deficiency) which is characterized by abnormal bleeding due to SerpinE1 defect in the plasma. High concentrations of SerpinE1 have been associated with thrombophilia which is an autosomal dominant disorder in which affected individuals are prone to develop serious spontaneous thrombosis. Studies of PAI-1 have contributed significantly to the elucidation of the protease inhibitory mechanism of serpins, which is based on a metastable native state becoming stabilised by insertion of the RCL into the central beta-sheet A and formation of covalent complexes with target proteases. Greater expression of PAI-1 has been associated with increased survival of cells and resistance to apoptosis. PAI-1 appears to influence apoptosis by decreasing cell adhesion (anoikis) as well as its effect on intracellular signaling. PAI-1, in its active state, also binds to the extracellular protein vitronectin. When in complex with its target proteases, it binds with high affinity to endocytosis receptors of the low density receptor family. The mechanisms of PAI-1 overexpression during obesity are complex, and it is conceivable that several inducers are involved at the same time at several sites of synthesis. PAI-1 is also implicated in adipose tissue development. It suggests that PAI-1 inhibitors serve in the control of atherothrombosis.