scholarly article | Q13442814 |
P356 | DOI | 10.1002/JCB.25607 |
P698 | PubMed publication ID | 27206651 |
P2093 | author name string | Masaharu Takigawa | |
Satoshi Kubota | |||
Ken-Ichi Kozaki | |||
Stuart K Calderwood | |||
Takanori Eguchi | |||
P2860 | cites work | Methylation of histone H3 lysine 9 creates a binding site for HP1 proteins | Q27860456 |
mTOR is essential for the proteotoxic stress response, HSF1 activation and heat shock protein synthesis | Q28116279 | ||
Matrix metalloproteinases | Q28140451 | ||
Heterochromatin formation in mammalian cells: interaction between histones and HP1 proteins | Q28187121 | ||
Maintenance of stable heterochromatin domains by dynamic HP1 binding | Q28206473 | ||
Matrix metalloproteinases cleave connective tissue growth factor and reactivate angiogenic activity of vascular endothelial growth factor 165 | Q28214421 | ||
Novel transcription-factor-like function of human matrix metalloproteinase 3 regulating the CTGF/CCN2 gene | Q28263327 | ||
HP1 binds specifically to Lys26-methylated histone H1.4, whereas simultaneous Ser27 phosphorylation blocks HP1 binding | Q28587228 | ||
A new transcriptional role for matrix metalloproteinase-12 in antiviral immunity | Q28910180 | ||
New functions for the matrix metalloproteinases in cancer progression | Q29547738 | ||
Regulation of HP1-chromatin binding by histone H3 methylation and phosphorylation | Q29614524 | ||
Rac1b and reactive oxygen species mediate MMP-3-induced EMT and genomic instability | Q29618122 | ||
Matrix metalloproteinases and tissue inhibitors of metalloproteinases: structure, function, and biochemistry | Q29618605 | ||
Matrix metalloproteinases: regulators of the tumor microenvironment | Q29619858 | ||
How matrix metalloproteinases regulate cell behavior | Q29620360 | ||
Expression of heat shock proteins and heat shock protein messenger ribonucleic acid in human prostate carcinoma in vitro and in tumors in vivo. | Q33736465 | ||
Matrix metalloproteinases in tumour invasion and metastasis | Q33765792 | ||
Heat shock proteins in cancer: diagnostic, prognostic, predictive, and treatment implications | Q33899708 | ||
Heterochromatin protein 1 (HP1) connects the FACT histone chaperone complex to the phosphorylated CTD of RNA polymerase II. | Q34164889 | ||
Coordinated methyl and RNA binding is required for heterochromatin localization of mammalian HP1alpha | Q34196189 | ||
HSF1 drives a transcriptional program distinct from heat shock to support highly malignant human cancers | Q34292197 | ||
Matrix metalloproteinases: they're not just for matrix anymore! | Q34360566 | ||
Heat shock proteins in cancer: chaperones of tumorigenesis | Q34495261 | ||
High levels of nuclear heat-shock factor 1 (HSF1) are associated with poor prognosis in breast cancer | Q35546764 | ||
Aggrecan degradation in human cartilage. Evidence for both matrix metalloproteinase and aggrecanase activity in normal, osteoarthritic, and rheumatoid joints | Q37369629 | ||
Stress proteins in aging and life span | Q38112457 | ||
Matrix metalloproteinases and the development of cancer | Q41239245 | ||
Targeting the hsp70 gene delays mammary tumor initiation and inhibits tumor cell metastasis | Q42171605 | ||
Matrix metalloproteinase 3 is present in the cell nucleus and is involved in apoptosis. | Q42988559 | ||
P433 | issue | 1 | |
P921 | main subject | collaboration | Q1145523 |
P304 | page(s) | 43-51 | |
P577 | publication date | 2016-06-07 | |
P1433 | published in | Journal of Cellular Biochemistry | Q6294917 |
P1476 | title | Intracellular MMP3 Promotes HSP Gene Expression in Collaboration With Chromobox Proteins. | |
P478 | volume | 118 |
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Q41373666 | Nuclear matrix metalloproteinases: functions resemble the evolution from the intracellular to the extracellular compartment |
Q50133361 | Organoids with cancer stem cell-like properties secrete exosomes and HSP90 in a 3D nanoenvironment |
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