目录号 | 产品详情 | 靶点 | |
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TQ0078 | CDK | ||
CDK-IN-2 (CDK inhibitor II) 是一种有效且特异性的 CDK9 抑制剂,IC50小于8 nM。 | |||
T14916 | CDK | ||
CDK2-IN-4 是选择性的CDK2抑制剂,对 CDK2/cyclin A 的IC50值为 44 nM,选择性高出 CDK1/cyclin B 的 2,000 倍 (IC50=86 μM)。 | |||
T10742 | CDK | ||
CDK9-IN-10 是一种有效的 CDK9 抑制剂。CDK9-IN-10 是 PROTAC CDK9 degrader-2 的配体。 | |||
T39957 | CDK | ||
CDK4/6-IN-6 是CDK4/CDK6的有效抑制剂,结合CDK4/Cyclin D1 和 CDK6/Cyclin D3 的 Ki 为 0.6 nM 和 13.9 nM。 | |||
T10736 | CDK | ||
CDK4/6-IN-2 是一种CDK4和CDK6抑制剂,IC50分别为 2.7 和 16 nM。 | |||
T10740 | CDK | ||
CDK8-IN-1 是一个有效的、CDK8 的选择性抑制剂,其 IC50 值为 3 nM。 | |||
T14914 | CDK | ||
Cdk1/2 Inhibitor III 是一种具有选择性的 Cdk1/2抑制剂,对 CDK1/cyclin B 的 IC50值为2.1μM。 | |||
T37207L | CDK | ||
Cdk5 Substrate acetate 是一种丝氨酸/苏氨酸激酶,主要在神经元组织中具有活性。与 p25 或 p35 一起,Cdk5 磷酸化一系列蛋白质,包括组蛋白 H1 和 tau。 它是一种合成肽 (PKTPKKAKKL),对应于组蛋白 H1 的序列。它被 Cdk5 磷酸化,Km 值为 5 µM。 | |||
T14918 | Others CDK | ||
CDK9-IN-2 是一种特异性CDK9抑制剂。它在 A2058 皮肤细胞系(72 小时)和 H929 多发性骨髓瘤细胞系(72小时)的IC50分别为 7 nM 和 5 nM。 | |||
T10745 | CDK | ||
CDK9-IN-7 (compound 21e) 是一种高效选择性的,具有口服活性的 CDK9/cyclin T 抑制剂 (IC50=11 nM),与抑制其他 CDK 相比更有效 (CDK4/cyclinD=148 nM; CDK6/cyclinD=145 nM)。CDK9-IN-7 具有抗癌活性并没有明显的毒性。CDK9-IN-7 诱导非小细胞肺癌 (NSCLC) 细胞凋亡,在 G2 期阻滞细胞周期,并具有抑制非小细胞肺癌干细胞特性。 |
目录号 | 产品名/同用名 | 种属 | 表达系统 | ||
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TMPY-04548 | CDK4 Protein, Human, Recombinant (GST) | Human | Baculovirus-Insect Cells | ||
CDK4 is a member of the Ser/Thr protein kinase family. It is highly similar to the gene products of S. cerevisiae cdc28 and S. pombe cdc2. It is a catalytic subunit of the protein kinase complex that is important for cell cycle G1 phase progression. The activity of CDK4 is restricted to the G1-S phase, which is controlled by the regulatory subunits D-type cyclins and CDK inhibitor p16(INK4a). CDK4 was shown to be responsible for the phosphorylation of retinoblastoma gene product. CDK4 is the ser/Thr-kinase component of cyclin D-CDK4 (DC) complexes that phosphorylate and inhibit members of the retinoblastoma (RB) protein family including RB1 and regulate the cell-cycle during G(1)/S transition. Phosphorylation of RB1 allows dissociation of the transcription factor E2F from the RB/E2F complexes and the subsequent transcription of E2F target genes which are responsible for the progression through the G(1) phase. Hypophosphorylates RB1 in early G(1) phase. Cyclin D-CDK4 complexes are major integrators of various mitogenenic and antimitogenic signals. CDK4 has been shown to be mutated in some types of cancer, whilst a chromosomal rearrangement can lead to Cdk6 overexpression in lymphoma, leukemia and melanoma.Cancer ImmunotherapyImmune CheckpointImmunotherapyTargeted Therapy
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TMPY-04450 | CDK1 & CCNE1 Heterodimer Protein, Human, Recombinant (His & GST) | Human | Baculovirus-Insect Cells | ||
CDK1 & CCNE1 Heterodimer Protein, Human, Recombinant (His & GST) is expressed in Baculovirus-Insect Cells with His and GST tag. The predicted molecular weight is 109.7 kDa. Accession number: NP_001777.1&NP_001229.1
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TMPH-01173 | CDK7 Protein, Human, Recombinant | Human | E. coli | ||
CDK7 Protein, Human, Recombinant is expressed in E. coli.
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TMPH-01172 | CDK7 Protein, Human, Recombinant (His) | Human | Baculovirus | ||
CDK7 Protein, Human, Recombinant (His) is expressed in Baculovirus.
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TMPH-03457 | CAK1 Protein, S. cerevisiae, Recombinant (E. coli, His & Myc) | Saccharomyces cerevisiae | E. coli | ||
CAK1 Protein, S. cerevisiae, Recombinant (E. coli, His & Myc) is expressed in E. coli with N-terminal 10xHis tag and C-terminal Myc tag. The predicted molecular weight is 49.6 kDa. Accession number: P43568
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TMPH-03456 | CAK1 Protein, S. cerevisiae, Recombinant (His & Myc) | Saccharomyces cerevisiae | Baculovirus | ||
CAK1 Protein, S. cerevisiae, Recombinant (His & Myc) is expressed in Baculovirus with N-terminal 10xHis tag and C-terminal Myc tag. The predicted molecular weight is 46.1 kDa. Accession number: P43568
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TMPY-04542 | CDK2 Protein, Human, Recombinant (His) | Human | Baculovirus-Insect Cells | ||
CDK2 is a member of the Ser/Thr protein kinase family. This protein kinase is highly similar to the gene products of S. cerevisiae cdc28, and S. pombe cdc2. It is a catalytic subunit of the cyclin-dependent protein kinase complex, whose activity is restricted to the G1-S phase, and essential for cell cycle G1/S phase transition. Cdks (cyclin-dependent kinases) are heteromeric serine/threonine kinases that control progression through the cell cycle in concert with their regulatory subunits, the cyclins. Cdks are constitutively expressed and are regulated by several kinases and phosphastases, including Wee1, CDK-activating kinase and Cdc25 phosphatase. Although there are 12 different cdk genes, only 5 have been shown to directly drive the cell cycle (Cdk1, -2, -3, -4, and -6). Following extracellular mitogenic stimuli, cyclin D gene expression is upregulated. Cdk4 forms a complex with cyclin D and phosphorylates Rb protein, leading to liberation of the transcription factor E2F. E2F induces transcription of genes including cyclins A and E, DNA polymerase and thymidine kinase. Cdk4-cyclin E complexes form and initiate G1/S transition. Subsequently, Cdk1-cyclin B complexes form and induce G2/M phase transition. Cdk1-cyclin B activation induces the breakdown of the nuclear envelope and the initiation of mitosis. CDK2 associates with and regulated by the regulatory subunits of the complex including cyclin A or E, CDK inhibitor p21Cip1 (CDKN1A) and p27Kip1 (CDKN1B). Its activity is also regulated by its protein phosphorylation. CDK2 is involved in the control of the cell cycle. It also interacts with cyclins A, B1, B3, D, or E. Activity of CDK2 is maximal during S phase and G2.
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TMPH-01171 | CDK5 Protein, Human, Recombinant | Human | E. coli | ||
CDK5 Protein, Human, Recombinant is expressed in E. coli.
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TMPY-04556 | CDK5 Protein, Human, Recombinant (GST) | Human | Baculovirus-Insect Cells | ||
Cell division protein kinase 5, also known as Cyclin-dependent kinase 5, Serine/threonine-protein kinase PSSALRE, Tau protein kinase II catalytic subunit, TPKII catalytic subunit and CDK5, is a cytoplasm protein which belongs to theprotein kinase superfamily, CMGC Ser/Thr protein kinase family and CDC2 / CDKX subfamily. Cyclin-dependent kinases (Cdks) are a family of proline-directed Ser/Thr kinases known for their role in the control of cell cycle progression. In 1992, this family was joined by CDK5, which is an atypical member in that it uses its own activators and is multifunctional, playing important regulatory roles in multiple cellular functions. CDK5, unlike other Cdks, is not regulated by cyclins, and its activity is primarily detected in postmitotic neurons in developing and adult nervous systems. CDK5 is activated by association with a neuron-specific activator, p35 or its isoform p39. CDK5 is probably involved in the control of the cell cycle. It interacts with D1 and D3-type G1 cyclins. CDK5 can phosphorylate histone H1, tau, MAP2 and NF-H and NF-M. It also interacts with p35 which activates the kinase. CDK5 plays important roles in various neuronal activities, including neuronal migration, synaptic activity, and neuronal cell death.
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TMPH-01169 | CDK4 Protein, Human, Recombinant (His) | Human | E. coli | ||
CDK4 Protein, Human, Recombinant (His) is expressed in E. coli.
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TMPH-01167 | CDK1 Protein, Human, Recombinant (His) | Human | E. coli | ||
CDK1 Protein, Human, Recombinant (His) is expressed in E. coli.
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TMPY-04549 | CDK1 Protein, Human, Recombinant (GST) | Human | Baculovirus-Insect Cells | ||
CDC2, also known as CDK1, contains 1 protein kinase domain and belongs to the protein kinase superfamily, CMGC Ser/Thr protein kinase family, CDC2/CDKX subfamily. CDC2 is a catalytic subunit of the highly conserved protein kinase complex known as M-phase promoting factor (MPF), which is essential for G1/S and G2/M phase transitions of eukaryotic cell cycle. Mitotic cyclins stably associate with CDC2 and function as regulatory subunits. The kinase activity of CDK1 is controlled by cyclin accumulation and destruction through the cell cycle. The phosphorylation and dephosphorylation of CDC2 also play important regulatory roles in cell cycle control. It is required in higher cells for entry into S-phase and mitosis. CDC2 also is a cyclin-dependent kinase which displays CTD kinase activity and is required for RNA splicing. It has CTD kinase activity by hyperphosphorylating the C-terminal heptapeptide repeat domain (CTD) of the largest RNA polymerase II subunit RPB1, thereby acting as a key regulator of transcription elongation. CDK1 is required for RNA splicing, possibly by phosphorylating SRSF1/SF2. It is involved in regulation of MAP kinase activity, possibly leading to affect the response to estrogn inhibitors.
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TMPY-04775 | CDK1 Protein, Mouse, Recombinant (His & GST) | Mouse | Baculovirus-Insect Cells | ||
CDC2, also known as CDK1, contains 1 protein kinase domain and belongs to the protein kinase superfamily, CMGC Ser/Thr protein kinase family, CDC2/CDKX subfamily. CDC2 is a catalytic subunit of the highly conserved protein kinase complex known as M-phase promoting factor (MPF), which is essential for G1/S and G2/M phase transitions of eukaryotic cell cycle. Mitotic cyclins stably associate with CDC2 and function as regulatory subunits. The kinase activity of CDK1 is controlled by cyclin accumulation and destruction through the cell cycle. The phosphorylation and dephosphorylation of CDC2 also play important regulatory roles in cell cycle control. It is required in higher cells for entry into S-phase and mitosis. CDC2 also is a cyclin-dependent kinase which displays CTD kinase activity and is required for RNA splicing. It has CTD kinase activity by hyperphosphorylating the C-terminal heptapeptide repeat domain (CTD) of the largest RNA polymerase II subunit RPB1, thereby acting as a key regulator of transcription elongation. CDK1 is required for RNA splicing, possibly by phosphorylating SRSF1/SF2. It is involved in regulation of MAP kinase activity, possibly leading to affect the response to estrogn inhibitors.
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TMPY-02921 | CDK2AP2 Protein, Human, Recombinant (His) | Human | E. coli | ||
CDK2AP2 belongs to the CDK2AP family. Members of this family of proteins are cell-growth suppressors, associating with and influencing the biological activities of important cell cycle regulators in the S phase including monomeric non-phosphorylated cyclin-dependent kinase 2 (CDK2) and DNA polymerase alpha/primase. CDK2AP2 contains 5 distinct gt-ag introns. Transcription produces 7 different mRNAs, 6 alternatively spliced variants and 1 unspliced form. There are 2 non overlapping alternative last exons and 4 validated alternative polyadenylation sites. The mRNAs appear to differ splicing versus retention of 3 introns. CDK2AP2 plays a role in regulating self-renewal of mouse embryonic stem cells (mESC) under permissive conditions, and cell survival during differentiation of the mESC into terminally differentiated cell types.
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TMPH-01170 | CDK5R1 Protein, Human, Recombinant (His) | Human | E. coli | ||
CDK5R1 Protein, Human, Recombinant (His) is expressed in E. coli.
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TMPY-04449 | CDK7 & CCNH & MNAT1 Protein, Human, Recombinant (His) | Human | Baculovirus-Insect Cells | ||
CDK7 & CCNH & MNAT1 Protein, Human, Recombinant (His) is expressed in Baculovirus-Insect Cells with His tag. The predicted molecular weight is 118.8 kDa. Accession number: P50613&P51946&P51948
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TMPJ-00963 | CDKN2C Protein, Human, Recombinant (His) | Human | E. coli | ||
Cyclin-Dependent Kinase 4 Inhibitor C (CDKN2C) is a member of the INK4 family of cyclin dependent kinase inhibitors. CDKN2C contains 4 ANK repeats and interacts with CDK4 or CDK6. Highest levels of CDKN2C can be found in skeletal muscle, pancreas, and heart. CDKN2C inhibits cell growth and proliferation with a correlated dependence on endogenous retinoblastoma protein RB and prevent the activation of the CDK kinases. Studies have been shown the roles of CDKN2C gene in regulating spermatogenesis, as well as in suppressing tumorigenesis.
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TMPY-03534 | CDC37 Protein, Mouse, Recombinant (His & GST) | Mouse | Baculovirus-Insect Cells | ||
CDC37 is a protein that is expressed in proliferative zones during embryonic development and in adult tissues, consistent with a positive role in proliferation and is required for cell division in budding yeast. CDC37 is thought to play an important role in the establishment of signaling pathways controlling cell proliferation through targeting intrinsically unstable oncoprotein kinases such as Cdk-4, Raf-1, and src to the molecular chaperone Hsp90. Decreased Hsp90 expression can reduce the levels of microtubule-associated protein tau, whose overexpression may induce many diseases. CDC37 is considered as a co-chaperone that is classified as Hsp90's accessory proteins. It has been reported that suppression of Cdc37 destabilized tau, leading to its clearance, whereas cdc37 overexpression preserved tau.Cdc37 was found to co-localize with tau in neuronal cells and to physically interact with tau from human brain. Moreover, Cdc37 levels significantly increased with age.
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TMPY-03558 | CDC37 Protein, Mouse, Recombinant | Mouse | Baculovirus-Insect Cells | ||
CDC37 is a protein that is expressed in proliferative zones during embryonic development and in adult tissues, consistent with a positive role in proliferation and is required for cell division in budding yeast. CDC37 is thought to play an important role in the establishment of signaling pathways controlling cell proliferation through targeting intrinsically unstable oncoprotein kinases such as Cdk-4, Raf-1, and src to the molecular chaperone Hsp90. Decreased Hsp90 expression can reduce the levels of microtubule-associated protein tau, whose overexpression may induce many diseases. CDC37 is considered as a co-chaperone that is classified as Hsp90's accessory proteins. It has been reported that suppression of Cdc37 destabilized tau, leading to its clearance, whereas cdc37 overexpression preserved tau.Cdc37 was found to co-localize with tau in neuronal cells and to physically interact with tau from human brain. Moreover, Cdc37 levels significantly increased with age.
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TMPY-01715 | CDC37 Protein, Human, Recombinant (GST) | Human | Baculovirus-Insect Cells | ||
CDC37 is a protein that is expressed in proliferative zones during embryonic development and in adult tissues, consistent with a positive role in proliferation and is required for cell division in budding yeast. CDC37 is thought to play an important role in the establishment of signaling pathways controlling cell proliferation through targeting intrinsically unstable oncoprotein kinases such as Cdk-4, Raf-1, and src to the molecular chaperone Hsp90. Decreased Hsp90 expression can reduce the levels of microtubule-associated protein tau, whose overexpression may induce many diseases. CDC37 is considered as a co-chaperone that is classified as Hsp90's accessory proteins. It has been reported that suppression of Cdc37 destabilized tau, leading to its clearance, whereas cdc37 overexpression preserved tau.Cdc37 was found to co-localize with tau in neuronal cells and to physically interact with tau from human brain. Moreover, Cdc37 levels significantly increased with age.
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TMPY-02495 | p19 INK4d Protein, Human, Recombinant (GST) | Human | E. coli | ||
Cyclin-dependent kinase inhibitor 2D(also known as CDKN2D or p19ink4d), a member of the INK4 family of cyclin-dependent kinase (CDK) inhibitors, negatively regulates the cyclin D-CDK4/6 complexes, which promote G1/S transition by phosphorylating the retinoblastoma tumor-suppressor gene product. It is clearly shown that DNA repair is the main target of p19ink4d effect and that diminished apoptosis is a downstream event. Experiments has uncovered a role of p19INK4d as a regulator of DNA-damage-induced apoptosis and suggest that it protects cells from undergoing apoptosis by allowing a more efficient DNA repair. It has been demonstrated that p19INK4d expression enhances cell survival under genotoxic conditions. Previous work has shown that inactivation of the cyclin-dependent kinase inhibitor (CKI) p19(Ink4d) leads to progressive hearing loss attributable to inappropriate DNA replication and subsequent apoptosis of hair cells. It may also involved in male reproductive function including testicular atrophy, alteration in serum follicle stimulating hormone, qualitative increase in germ cell apoptosis, and delayed kinetics of meiotic prophase markers.
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TMPY-02796 | KIAA0101 Protein, Human, Recombinant (His) | Human | E. coli | ||
KIAA11, also known as p15(PAF), is a proliferating cell nuclear antigen-associated factor that interacts with proliferating cell nuclear antigen(PCNA). It was initially isolated in a yeast two-hybrid screen for PCNA binding partners and was shown to bind PCNA competitively with the cell cycle regulator p21(WAF). KIAA11 is localized primarily in the nucleus. It shares the conserved PCNA binding motif with several other PCNA binding proteins including CDK inhibitor p21. KIAA11 is involved in cell proliferation and plays a role in early tumor recurrence (ETR), and prognosis of hepatocellular carcinoma (HCC). KIAA11 is expressed predominantly in the liver, pancreas, and placenta. It cannot be detected in the heart or brain. It is highly expressed in some tumors, especially esophageal tumors, in anaplastic thyroid carcinomas, and non-small-cell lung cancer lines. Overexpression of KIAA11 predicts high stage, early tumor recurrence, and poor prognosis of hepatocellular carcinoma. It also may be involved in the protection of cells from UV-induced cell death.
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TMPJ-00936 | CCND2 Protein, Human, Recombinant (His) | Human | E. coli | ||
CCND2,also known as G1/S-specific cyclin-D2,is a member of the highly conserved cyclin family. Different cyclins exhibit distinct expression and degradation patterns which contribute to the temporal coordination of each mitotic event. Cyclins function as regulators of CDK kinases. This cyclin forms a complex with and functions as a regulatory subunit of CDK4 or CDK6, whose activity is required for cell cycle G1/S transition. CCND2 is involved in a number of fundamental biological processes such as phosphorylating and inhibiting members of the retinoblastoma (RB) protein family including RB1 and regulating the cell-cycle during G1/S transition. It is also substrate for SMAD3, phosphorylating SMAD3 in a cell-cycle-dependent manner and repressing its transcriptional activity. Phosphorylation of RB1 allows dissociation of the transcription factor E2F from the RB/E2F complex and the subsequent transcription of E2F target genes which are responsible for the progression through the G1 phase. Cyclin D-CDK4 complexes are major integrators of various mitogenenic and antimitogenic signals. Component of the ternary complex, cyclin D2/CDK4/CDKN1B, required for nuclear translocation and activity of the cyclin D-CDK4 complex.
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TMPY-02114 | PIN1 Protein, Human, Recombinant | Human | E. coli | ||
Peptidyl-prolyl cis-trans isomerase Pin1, also known as Peptidyl-prolyl cis-trans isomerase NIMA-interacting 1, Rotamase Pin1 and PIN1, peptidyl-prolyl cis/trans isomerase (PPIase), is a nucleus protein. PIN1 is a peptidyl-prolyl isomerase that can alter the conformation of phosphoproteins and so affect protein function and/or stability. PIN1 regulates a number of proteins important for cell-cycle progression and is presumed to operate as a molecular timer of this important process. PIN1 is an essential PPIase that regulates mitosis presumably by interacting with NIMA and attenuating its mitosis-promoting activity. PIN1 displays a preference for an acidic residue N-terminal to the isomerized proline bond. Alterations in the level of PIN1 can influence hyperproliferative diseases such as cancer. PIN1 has been implicated in multiple aspects of cell cycle regulation. It has been suggested that PIN1 function is required for both normal mitotic progression and reentry into the cell cycle from quiescence. PIN1 is also a target of several oncogenic pathways and is overexpressed in human breast cancer. Its overexpression can lead to upregulation of cyclin-D1 and transformation of breast epithelial cells in collaboration with the oncogenic pathways. PIN1 plays a pivotal role in breast development and may be a promising new anticancer target. Pin1 activity regulates the outcome of proline-directed kinase (e.g. MAPK, CDK or GSK3) signalling and consequently regulates cell proliferation (in part through control of cyclin D1 levels and stability) and cell survival. Recent data also implicate Pin1 as playing an important role in immune responses, at least in part by increasing the stability of cytokine mRNAs by influencing the protein complexes to which they bind.
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TMPY-02076 | PIN1 Protein, Human, Recombinant (His) | Human | E. coli | ||
Peptidyl-prolyl cis-trans isomerase Pin1, also known as Peptidyl-prolyl cis-trans isomerase NIMA-interacting 1, Rotamase Pin1 and PIN1, peptidyl-prolyl cis/trans isomerase (PPIase), is a nucleus protein. PIN1 is a peptidyl-prolyl isomerase that can alter the conformation of phosphoproteins and so affect protein function and/or stability. PIN1 regulates a number of proteins important for cell-cycle progression and is presumed to operate as a molecular timer of this important process. PIN1 is an essential PPIase that regulates mitosis presumably by interacting with NIMA and attenuating its mitosis-promoting activity. PIN1 displays a preference for an acidic residue N-terminal to the isomerized proline bond. Alterations in the level of PIN1 can influence hyperproliferative diseases such as cancer. PIN1 has been implicated in multiple aspects of cell cycle regulation. It has been suggested that PIN1 function is required for both normal mitotic progression and reentry into the cell cycle from quiescence. PIN1 is also a target of several oncogenic pathways and is overexpressed in human breast cancer. Its overexpression can lead to upregulation of cyclin-D1 and transformation of breast epithelial cells in collaboration with the oncogenic pathways. PIN1 plays a pivotal role in breast development and may be a promising new anticancer target. Pin1 activity regulates the outcome of proline-directed kinase (e.g. MAPK, CDK or GSK3) signalling and consequently regulates cell proliferation (in part through control of cyclin D1 levels and stability) and cell survival. Recent data also implicate Pin1 as playing an important role in immune responses, at least in part by increasing the stability of cytokine mRNAs by influencing the protein complexes to which they bind.
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