about
The molecular portrait of in vitro growth by meta-analysis of gene-expression profilesBioengineering Models for Breast Cancer ResearchConcise review: Spermatogenesis in an artificial three-dimensional systemModulation of the tumor microenvironment for cancer treatment: a biomaterials approachCompact Wireless Microscope for In-Situ Time Course Study of Large Scale Cell Dynamics within an Incubator.Microglia are mediators of Borrelia burgdorferi-induced apoptosis in SH-SY5Y neuronal cellsPlant Growth Environments with Programmable Relative Humidity and Homogeneous Nutrient AvailabilityThree-Dimensional Rotating Wall Vessel-Derived Cell Culture Models for Studying Virus-Host InteractionsDifferentiation of murine male germ cells to spermatozoa in a soft agar culture systemThree dimensional neuronal cell cultures more accurately model voltage gated calcium channel functionality in freshly dissected nerve tissueMicroengineering methods for cell-based microarrays and high-throughput drug-screening applicationsStem cells in microfluidics.Engineered microenvironments for controlled stem cell differentiation.Probing micro-solvation in "numbers": the case of neutral dipeptides in water.A spheroid toxicity assay using magnetic 3D bioprinting and real-time mobile device-based imaging.Mass spectrometry tools and workflows for revealing microbial chemistry.Magnetically Bioprinted Human Myometrial 3D Cell Rings as A Model for Uterine Contractility.Comparative Membranome expression analysis in primary tumors and derived cell lines.Assembly of Hepatocyte Spheroids Using Magnetic 3D Cell Culture for CYP450 Inhibition/Induction.Dynamic reassembly of peptide RADA16 nanofiber scaffoldThermo-responsive non-woven scaffolds for "smart" 3D cell culture.Microbial metabolic exchange in 3D.T cell-, interleukin-12-, and gamma interferon-driven viral clearance in measles virus-infected brain tissueMicrofluidic devices for studying heterotypic cell-cell interactions and tissue specimen cultures under controlled microenvironments.A high-throughput three-dimensional cell migration assay for toxicity screening with mobile device-based macroscopic image analysis.Microscale technologies for regulating human stem cell differentiation.Investigating breast cancer cell behavior using tissue engineering scaffolds.Simple and novel three dimensional neuronal cell culture using a micro mesh scaffoldEffect of Removal of Spermatogonial Stem Cells (SSCs) from In Vitro Culture on Gene Expression of Niche Factors in BovineMicrofabricated biomaterials for engineering 3D tissues.3D scaffolds for bone marrow stem cell support in bone repair.Closing the phenotypic gap between transformed neuronal cell lines in culture and untransformed neurons.Silica-based branched hollow microfibers as a biomimetic extracellular matrix for promoting tumor cell growth in vitro and in vivo.Microfabricated polymeric vessel mimetics for 3-D cancer cell cultureA high-throughput in vitro ring assay for vasoactivity using magnetic 3D bioprintingA fluid membrane-based soluble ligand-display system for live-cell assays.In vitro irradiation system for radiobiological experiments.Microfluidic platforms for hepatocyte cell culture: new technologies and applications.In vitro cell and tissue models for studying host-microbe interactions: a review.User-friendly 3D bioassays with cell-containing hydrogel modules: narrowing the gap between microfluidic bioassays and clinical end-users' needs.
P2860
Q24811243-B58C7C2E-2019-496B-92CE-183577D71376Q26770495-5BD178EC-D772-4BD4-9AEB-3374AC385C90Q26862826-3ACCA61E-EAF3-49A0-9943-20E42C9E8F3AQ26996790-3C35B61F-8ED1-49C7-9409-09BD9D62988CQ27303471-E5C36768-96AE-4929-8F4A-FAA8F6DED572Q27316104-80BDC2AA-194B-4844-BFBD-17773ADDF16AQ27345426-ED16354A-AF43-4A62-BFA4-BE2CB4C81F1BQ28072615-559F9DAE-2254-47A7-A0A5-89F429C387F1Q28252330-7EE7F88B-3CA2-4BA4-8C44-9C8F68B26054Q28484043-20D5768B-A90F-4517-A867-5BEC21D33B89Q30464008-AFAEE4B2-7F32-4C84-B403-A16D12E2C894Q30475745-C31BC157-6DA8-4164-8DC0-822AB0B2694FQ30488054-1C7F9C04-6FC7-4515-80E3-D82F11A8420FQ30615517-6A4D3E40-6B6E-49E5-A226-E95BC712784CQ30664346-DBDDF576-97F9-4B4E-8E2E-E1DE327324B0Q30853422-E32D2B87-53A5-439C-BB30-87510E21B62CQ33624217-A85D573D-B426-4C1D-8C72-6A433956EB77Q33644331-10A62DFD-2B56-4719-89ED-E17870F18459Q33755411-0DCA74E1-3EF4-4E38-8F04-843B6AC20796Q33853794-ED1D9AD7-2D36-458B-B42B-28BCB5734E7FQ34172851-8A2E7281-9E4C-42D8-82F4-1A391624EF77Q34530847-AF0C9DD8-48C1-4F96-BE5A-89C6DED78772Q34742468-9ACA9F0C-2858-44D7-9B3E-C2911F40BA75Q34856569-09398836-D443-4922-ADBA-119ACBB6070FQ35021224-8799E32E-576F-4B65-80B0-41838A00BE0FQ35149833-9AABBB5D-6ED8-4CE8-B967-89890F9E692AQ35250316-9F84D4D1-9F7A-44D0-9513-8F91322BFB6BQ35542854-2598D639-3CD7-44EA-B600-D694B9CF9A4CQ36113938-1CF92F78-6FDA-44F9-9B7E-BF7D5C8F43BDQ36204086-A2EC0FAF-5C67-4073-8800-B0A338984BC9Q36804651-1E5A03A0-C974-453B-AE9B-C1888FE94ED3Q36980917-8F33B043-D791-47E5-9066-3BAB94CD2C0BQ37063756-47A9CF6D-250F-4474-A12C-24551FF85556Q37137850-B9D1F510-87CA-48F5-8E8D-A4B97672F785Q37141201-FB8E4B07-C59A-48B1-8D0C-BDE4978708AAQ37323499-1DD2FB66-80C3-454A-9DB4-FEA821EC0258Q37418101-D9DC9385-1543-4B12-B421-52C77CAA0F09Q37951402-0542293E-7253-4590-B019-43D323FD80B6Q38077630-DEB9E2FE-09A4-4A22-83E2-3F0319463E24Q38390835-02C094A8-8A37-4C9E-B466-115250E00A10
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Beyond the Petri dish.
@en
Beyond the Petri dish.
@nl
type
label
Beyond the Petri dish.
@en
Beyond the Petri dish.
@nl
prefLabel
Beyond the Petri dish.
@en
Beyond the Petri dish.
@nl
P2860
P356
P1433
P1476
Beyond the Petri dish.
@en
P2093
Shuguang Zhang
P2860
P2888
P304
P356
10.1038/NBT0204-151
P577
2004-02-01T00:00:00Z