about
Stimulation of c-Myc transcriptional activity by vIRF-3 of Kaposi sarcoma-associated herpesvirusMondoA, a novel basic helix-loop-helix-leucine zipper transcriptional activator that constitutes a positive branch of a max-like networkMolecular targets of nutraceuticals derived from dietary spices: potential role in suppression of inflammation and tumorigenesisGenomic targets of the human c-Myc proteinThe impact of cellular senescence in cancer therapy: is it true or not?Functional interactions among members of the MAX and MLX transcriptional network during oncogenesisSynthetic lethal screens as a means to understand and treat MYC-driven cancersThe critical role of Akt in cardiovascular functionNegative control of the Myc protein by the stress-responsive kinase Pak2Combination treatment of tamoxifen with risperidone in breast cancerDeletion of Mnt leads to disrupted cell cycle control and tumorigenesisNeural crest cell deficiency of c-myc causes skull and hearing defectsPim kinase-dependent inhibition of c-Myc degradationTransgenic models of lymphoid neoplasia and development of a pan-hematopoietic vectorEpidermal growth factor receptor-dependent regulation of integrin-mediated signaling and cell cycle entry in epithelial cells.Deciphering c-MYC-regulated genes in two distinct tissues.Modulation of c-myc, max, and mad gene expression during neural differentiation of embryonic stem cells by all-trans-retinoic acid.Signal transduction through the Ras/Erk pathway is essential for the mycoestrogen zearalenone-induced cell-cycle progression in MCF-7 cells.Global regulation of nucleotide biosynthetic genes by c-MycGlobal rank-invariant set normalization (GRSN) to reduce systematic distortions in microarray data.Stat3 and c-Myc genome-wide promoter occupancy in embryonic stem cellsMYC prevents apoptosis and enhances endoreduplication induced by paclitaxel.c-Myc affects mRNA translation, cell proliferation and progenitor cell function in the mammary gland.ER-alpha36, a variant of ER-alpha, promotes tamoxifen agonist action in endometrial cancer cells via the MAPK/ERK and PI3K/Akt pathways.A proteomic study of cMyc improvement of CHO culture.Myc induces the nucleolin and BN51 genes: possible implications in ribosome biogenesisMYC and the control of DNA replication.New Myc-interacting proteins: a second Myc network emerges.Mechanisms of apoptosis by c-Myc.The role of c-myc in cellular growth control.Disruption of serine/threonine protein phosphatase 5 inhibits tumorigenesis of urinary bladder cancer cellsA novel function of adenovirus E1A is required to overcome growth arrest by the CDK2 inhibitor p27(Kip1).c-Myc is required for the formation of intestinal crypts but dispensable for homeostasis of the adult intestinal epitheliumExpression of cyclins E1 and E2 during mouse development and in neoplasiac-Myc target genes involved in cell growth, apoptosis, and metabolismc-Myc overexpression uncouples DNA replication from mitosis.ErbB2 potentiates breast tumor proliferation through modulation of p27(Kip1)-Cdk2 complex formation: receptor overexpression does not determine growth dependencyMyc potentiates apoptosis by stimulating Bax activity at the mitochondria.The cell cycle and Myc intersect with mechanisms that regulate pluripotency and reprogramming.Aurora kinases A and B are up-regulated by Myc and are essential for maintenance of the malignant state.
P2860
Q24338664-369A5FFF-2A3D-4311-B846-230E4B669F90Q24551066-F3CCCBA4-942D-4DF2-BADE-7ED98B67ED11Q24630499-4100986F-B2AE-4A67-AA33-DE9191093272Q24672480-1641A1D0-4656-4DFB-B16A-35E3A8A2E90BQ26825221-5EBA1215-6DD2-44EF-8D99-55986F8E8CA1Q26853567-DB8E24DF-74A3-4EBA-8A72-2E5D5D96F1D4Q27006010-134FCC65-F079-4E1C-958B-1A0F4D8A51B0Q28083829-C81F7552-3DF7-4791-B02C-6B2C1CC2D1BEQ28241326-776BD9A8-8C8E-4175-9FDF-B71EA7C9C371Q28539274-7019547D-0ACD-4B0F-92DE-B7C3DB7DDB23Q28589097-2A6FDEF1-81A3-48C6-BE3B-564592161D47Q28590740-F7316C9C-CB6A-48EC-B0F1-46CFFCCE8459Q28592035-D0CA102C-9725-4964-8AE3-816F5BFC90EAQ28592731-526F0D82-A9F9-4E44-8B95-D81B9CBB8BF9Q30448859-77E6E163-01B9-4CB7-A362-B68722B37CD4Q31031668-ADC287C5-7ACD-42D3-95F5-FE53F1C8B7AEQ31078047-54B2D3EF-193B-43C5-8812-8FB9DE3991B0Q32163249-5D52CCE5-5939-4D6D-AA85-307D8CC68343Q33352002-26457B90-E88B-4219-98F9-D5E9A9101650Q33389620-973FDC9B-7E84-4453-A350-06A564066A19Q33392662-459FA15D-CD8E-4120-8950-B8D6C14FE4D7Q33440553-8EDB3266-8B42-4132-9965-A118B9F25916Q33507168-ED250FAA-07A0-4212-9E84-FE8E53821F65Q33528959-CC5DD6D2-B52E-4F3A-AC89-67CF9E6D1B54Q33543990-A40356A9-0024-450C-BED0-0A626152C16BQ33612685-49F81903-76FC-4C76-8F16-49272B32CA19Q33653686-7FE221A3-BD2A-4655-AF7B-BA2EE4A9B84BQ33667300-6609ACB3-42DE-466D-B38B-08A07754A7B5Q33667315-99AD4900-87FD-4835-A54B-959D17EB49DCQ33667324-F6F4B81D-243A-432C-ADDD-C0140D6570DEQ33788055-AF533866-4C83-409A-821A-7C9566951AA6Q33889698-E7859B87-DD9C-4146-8DBB-F2661E07AF7CQ33925138-22F9A29F-0E01-40C8-B9D3-3516BC4784B0Q33949158-7C9A38C3-202A-4B8F-96DC-E6627FFA6F4BQ33956988-7CB697C3-3B44-48D7-8DF1-90A1A3E398A2Q33958873-BD212B06-CDCD-4436-B133-DC850723A3A7Q33963261-AD2C9241-E9A6-48B9-AFA1-925947AD0172Q33968823-83425B50-810C-4913-9BB2-52AC9E3587FEQ34017933-B7B55332-BF5F-4454-A059-8994EF2AA983Q34124945-19B5D0B1-0FCB-468C-A9AC-7582160B4ED1
P2860
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Myc and the cell cycle.
@en
type
label
Myc and the cell cycle.
@en
prefLabel
Myc and the cell cycle.
@en
P2093
P356
P1476
Myc and the cell cycle.
@en
P2093
P304
P356
10.2741/A239
P577
1998-02-15T00:00:00Z