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The amphoterin (HMGB1)/receptor for advanced glycation end products (RAGE) pair modulates myoblast proliferation, apoptosis, adhesiveness, migration, and invasiveness. Functional inactivation of RAGE in L6 myoblasts results in tumor formation in vivGeneration of stable co-cultures of vascular cells in a honeycomb alginate scaffold.Impaired proliferation and increased L-lactate production of dermal fibroblasts in the GK-rat, a spontaneous model of non-insulin dependent diabetes mellitus.Variations in Mre11/Rad50/Nbs1 status and DNA damage-induced S-phase arrest in the cell lines of the NCI60 panel.Acetylation of core histones in response to HDAC inhibitors is diminished in mitotic HeLa cells.Signaling through the small G-protein Cdc42 is involved in insulin-like growth factor-I resistance in aging articular chondrocytes.Biochemical properties of mammalian neutral sphingomyelinase 2 and its role in sphingolipid metabolism.The Mre11 nuclease is critical for the sensitivity of cells to Chk1 inhibition.Bone protection by estrens occurs through non-tissue-selective activation of the androgen receptor.Sensitization of human cancer cells to gemcitabine by the Chk1 inhibitor MK-8776: cell cycle perturbation and impact of administration schedule in vitro and in vivo.Phosphorylation of ribosomal protein S6 mediates compensatory renal hypertrophyA 135-kilodalton surface antigen of Mycoplasma hominis PG21 contains multiple directly repeated sequences.P16/p53 expression and telomerase activity in immortalized human dental pulp cells.Preclinical development of the novel Chk1 inhibitor SCH900776 in combination with DNA-damaging agents and antimetabolites.Spatially restricted patterning cues provided by heparin-binding VEGF-A control blood vessel branching morphogenesisPV1 down-regulation via shRNA inhibits the growth of pancreatic adenocarcinoma xenografts.A subset of cancer cell lines is acutely sensitive to the Chk1 inhibitor MK-8776 as monotherapy due to CDK2 activation in S phase.Engineering three-dimensional collagen-IKVAV matrix to mimic neural microenvironment.Preparation and functional evaluation of cell aggregates incorporating gelatin microspheres with different degradabilities.HB-GAM/Pleiotrophin and Midkine are differently expressed and distributed during retinoic acid-induced neural differentiation of P19 cells.alpha-Melanocyte stimulating hormone inhibits tumour necrosis factor-alpha stimulated intercellular adhesion molecule-1 expression in normal cutaneous human melanocytes and in melanoma cell lines.The participation of proliferative keratinocytes in the preimmune response to sensitizing agents.False positive results in cytotoxicity testing due to unexpectedly volatile compounds.Cell cycle perturbation induced by gemcitabine in human tumor cells in cell culture, xenografts and bladder cancer patients: implications for clinical trial designs combining gemcitabine with a Chk1 inhibitorSynthetic inhibitors of CDKs induce different responses in androgen sensitive and androgen insensitive prostatic cancer cell lines.S6 kinase 1 knockout inhibits uninephrectomy- or diabetes-induced renal hypertrophy.Insulin-like growth factor-I improves cellular and molecular aspects of healing in a collagenase-induced model of flexor tendinitis.Expansion of chondrocytes for tissue engineering in alginate beads enhances chondrocytic phenotype compared to conventional monolayer techniques.Effect of the fiber diameter and porosity of non-woven PET fabrics on the osteogenic differentiation of mesenchymal stem cells.Evaluation of a New Surgical Treatment for Equine Hind Limb Proximal Suspensory Desmitis.Adhesion and proliferation of human adipo-stromal cells for two- or three-dimensional poly(ethylene terephthalate) substrates with or without RGD immobilization.Adhesion behavior of human adipo-stromal cells on self-assembled monolayers with different surface densities or gradients of RGD peptide.Adipogenic differentiation of adipo-stromal cells incubated with basic fibroblast growth factor in solution and coated form.Attachment, proliferation and adipogenic differentiation of adipo-stromal cells on self-assembled monolayers of different chemical compositions.Complex mechanical conditioning of cell-seeded agarose constructs can influence chondrocyte biosynthetic activity.Enhanced proliferation and osteogenic differentiation of rat mesenchymal stem cells in collagen sponge reinforced with different poly(ethylene terephthalate) fibers.A two-step method using air plasma and carbodiimide crosslinking to enhance the biocompatibility of polycaprolactone.PGA-incorporated collagen: Toward a biodegradable composite scaffold for bone-tissue engineering.Random co-polymers based on the poloxamer Bayfit® 10WF15 for biomedical applicationsEffects of hypoxia and limited diffusion in tumor cell microenvironment on bystander effect of P450 prodrug therapy
P2860
Q28582320-2A88C281-6D12-4788-A1CC-8F0CC7D3B202Q30501466-52CE9367-F8D7-4F3A-A01C-6D69FDB709F7Q33860908-7233FB85-A510-4647-AA3B-F771B26B6AD9Q33914285-E01D43B6-51A3-41D1-BC8A-0E4F5BBBFCB4Q34122502-2217EDFF-BFFD-4726-A95B-99A9911CBEECQ34130808-45962AE1-5B37-41E7-8803-4DDAB9F4FEA8Q34174979-8285904D-4742-4A91-A026-0894A796ADBBQ34399650-E806D164-DC4B-482B-99C2-CBAA67041D64Q34563775-D3399787-791C-4034-A5EB-42F8A3FAB647Q35073758-C17B61E4-8D85-4659-A4CB-2ABFD4964BCAQ35132442-5D1176DA-02A0-4231-B0DC-1633B3C54D1DQ35379814-188DC3AB-94C8-42B0-A4E8-8EF468C6F128Q35694629-C0916917-5A9C-4317-A80C-7842EFF5FD49Q35751401-E333D326-29F8-4EEF-B469-237AB5EC9A00Q35804497-E18F7B49-4C3D-4BCE-A34A-BAEBF12F664EQ36213620-D55E3187-E825-4C9A-BF6D-DCFC771EAEF5Q36738836-E508C072-3F69-4A58-8C5C-ABF229756A33Q37113847-40CFB359-A548-41CD-B87D-44BCBAA455AAQ39375761-419C0A4C-0908-460D-A3BE-B3111BBD5129Q40601782-E7DC5117-AEC7-4C81-AF08-AE3A0E790FBEQ41044480-231ABB47-5644-446D-91C0-D1D79FE7E8E2Q41052080-52207DCE-8A20-498B-91BE-5C5C067BB673Q41067034-502C34D5-867D-400D-8052-57DAD2D4CC03Q41838038-B31700D1-40C6-419B-B2DA-7EBDB66D0921Q42215995-2CD08AB4-F38A-414E-B09A-F97E9871D728Q42454439-A3C94D9B-8AD3-4AA0-9676-108C5DBC26E1Q44181803-0D1E6C6C-E547-4416-AF27-FC165700CE95Q44361005-EF5AADC8-B02E-4487-A922-30DBF299E98AQ44803429-CDDA310D-7C50-4C5D-A363-AC49D722B39EQ45040713-DCDCD24D-EA5C-46E0-8B43-29ED1D20D3BBQ46073388-E32950AE-C3BA-4E1C-B6CF-71D03B4265CAQ46116698-9B9D513B-690F-4CD8-9D86-0F727161A18BQ46116701-E9631E70-A347-4C71-8756-609F34357666Q46547576-CAE55509-1E3D-4067-8BBB-5AEA6FB73CA0Q48191869-7898B3DC-1A4C-4397-AC1D-455F3CC94261Q50939343-07E90F98-EF46-4BB0-9C21-4222D6352BABQ51332394-81D4B5B5-AED4-43AA-B306-CFC9FFBD0CC5Q51382901-DE6E5224-6A1E-4DBF-84EF-61FC47322CD8Q57214470-5CBAFC7B-C33F-417F-BFC8-E664B4FA6CAEQ58483540-18905F73-F4A3-407A-80F7-D8FBD810C24E
P2860
description
1992 nî lūn-bûn
@nan
1992 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Fluorimetric DNA assay for cell growth estimation.
@ast
Fluorimetric DNA assay for cell growth estimation.
@en
type
label
Fluorimetric DNA assay for cell growth estimation.
@ast
Fluorimetric DNA assay for cell growth estimation.
@en
prefLabel
Fluorimetric DNA assay for cell growth estimation.
@ast
Fluorimetric DNA assay for cell growth estimation.
@en
P1476
Fluorimetric DNA assay for cell growth estimation.
@en
P304
P356
10.1016/0003-2697(92)90521-8
P407
P577
1992-11-01T00:00:00Z