Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.22 (cdc2)
 8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To distinguish between sequence-dependent effects and non-specific cytotoxicity of phosphorothioate antisense oligonucleotides (AS-oligos), we introduced AS-oligos blocking expression of 2Hs, the Homo sapiens cell division controller cdc2 kinase, its hematopoietically expressed homolog CHED, and the acetylcholine-hydrolyzing enzyme butyrylcholinesterase (BCHE) into primary murine bone marrow (BM) culture. Antisense oligonucleotides were fully phosphorothioated (Ts) or prepared with three phosphorothioate groups at their 3' termini (S3). Each of these oligos could cause reductions in colony counts either as a result of its sequence-dependent biological capacity or due to sequence-independent cytotoxicity. The Ts and S3 forms of the matching sense oligo, S-BCHE, served for comparison. The S3 forms of AS-2Hs, AS-BCHE, and S-BCHE caused more limited drops in colony counts than their Ts counterparts, reflecting lower cytotoxicity. When incubated with electroblotted BM proteins, Ts but not S3 oligos intensively labeled two protein bands. Moreover, 5'-end 32P-labeled (Ts) S-BCHE labeled nuclear proteins in situ in small, mitotic cells, suggesting correlation between oligo-protein interactions and the sequence-independent cytotoxicity of Ts AS-oligos. Extension of the apparently nontoxic AS-CHED by two adenosine residues at the 3' end, creating a potential for intramolecular hydrogen bond formation, resulted in increased toxicity. These findings recommend the use of nonlooped, partially phosphorothioated oligos for the modulation of hematopoiesis.
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PMID:Use of partially phosphorothioated "antisense" oligodeoxynucleotides for sequence-dependent modulation of hematopoiesis in culture. 784 88

In the present paper, the isolation of a third cyclin-dependent kinase gene and its cognate cDNA from Arabidopsis thaliana is described. Whereas other characterised cdc2 genes are ubiquitously expressed in Arabidopsis, expression of cdc2cAt is restricted to flowers. This gene, named cdc2cAt, differs from the two previously reported cdc2 genes in its organisation. Comparison with other cdc2 genes suggests that the deduced protein belongs to a new family of CDC2-like proteins related to the human CHED protein kinase.
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PMID:Identification of cdc2cAt: a new cyclin-dependent kinase expressed in Arabidopsis thaliana flowers. 1036 20

Cyclin-dependent kinase 11 is a relatively neglected member of the transcriptional CDKs subfamily, despite possibly being the most versatile CDK in this group. Different CDK11 variants are known to play essential roles in major cellular processes as mRNA transcription (CDK11p110), mitosis (CDK11p58), and apoptosis (CDK11p46 and CDK11p60). Each CDK11 species targets a particular set of substrates related to its functional background, but all isoforms originate from the CDC2L gene complex in human chromosome 1p36.2. CDK11p110 is synthesized through regular cap-dependent translation of CDK11 mRNA, whereas CDK11p58 translation is initiated through an IRES, and occurs only at G2 and M phases. CDK11p46 and CDK11p60, in turn, are the products of caspase cleavage of the larger isoforms during apoptosis. L-type cyclins are the main partners of CDK11, although CDK11p58 species interacts specifically with cyclin D3. The link between CDK11 dysfunction and cancer has been known for a long time, and critical roles in the proliferation of different cancer cell lines have been assigned to CDK11. This review summarizes more than 25 years of studies that unraveled CDK11 genetic and functional aspects.
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PMID:The Emerging Picture of CDK11: Genetic, Functional and Medicinal Aspects. 2881 41