Quantification of the Young's modulus of the primary plant cell wall using Bending-Lab-On-Chip (BLOC). - Wikidata - wikimedia - TriplyDB

Quantification of the Young's modulus of the primary plant cell wall using Bending-Lab-On-Chip (BLOC).

Quantification of the Young's modulus of the primary plant cell wall using Bending-Lab-On-Chip (BLOC).

http://www.wikidata.org/entity/Q45396941

about

Deformation of filamentous Escherichia coli cells in a microfluidic device: a new technique to study cell mechanics Measuring the Mechanical Properties of Plant Cell Walls A 3-dimensional fibre scaffold as an investigative tool for studying the morphogenesis of isolated plant pells.Emerging roles for microtubules in angiosperm pollen tube growth highlight new research cues.Single Cell Wall Nonlinear Mechanics Revealed by a Multiscale Analysis of AFM Force-Indentation Curves.Massively Parallelized Pollen Tube Guidance and Mechanical Measurements on a Lab-on-a-Chip Platform.Influence of Electric Fields and Conductivity on Pollen Tube Growth assessed via Electrical Lab-on-Chip.Subcellular and supracellular mechanical stress prescribes cytoskeleton behavior in Arabidopsis cotyledon pavement cells The cellular mechanics of an invasive lifestyle.Microfluidic platforms for plant cells studies.Relating the mechanics of the primary plant cell wall to morphogenesis.Microfabricated tools for quantitative plant biology.A Model Analysis of Mechanisms for Radial Microtubular Patterns at Root Hair Initiation Sites A computational approach for inferring the cell wall properties that govern guard cell dynamics.Characterization of size-dependent mechanical properties of tip-growing cells using a lab-on-chip device.An elastomeric micropillar platform for the study of protrusive forces in hyphal invasion.Finite Element Modeling of Shape Changes in Plant Cells.Fluttering of growing leaves as a way to reach flatness: experimental evidence on Persea americana.Dual-flow-RootChip reveals local adaptations of roots towards environmental asymmetry at the physiological and genetic levels.Dynamic, high precision targeting of growth modulating agents is able to trigger pollen tube growth reorientation.Optimization of flow assisted entrapment of pollen grains in a microfluidic platform for tip growth analysis.The biomechanical role of overall-shape transformation in a primitive multicellular organism: A case study of dimorphism in the filamentous cyanobacterium Arthrospira platensis.

P2860

Q27338729-D99AC442-40C3-4678-AE72-ABA810484EEB Q28082997-6F380B06-3CA0-4084-B411-C8BE3F4F646C Q30662571-963BE818-F4BB-422F-8A07-92932FBCE806 Q35067464-E754944A-85AC-4560-A57D-265C9A2E7CF3 Q35578911-7037EEB4-A776-4B15-B278-192579DFC942 Q36225005-7F6D5C76-B95E-4F43-BA78-A5984A42ABE1 Q36501234-7B3BE832-1914-409A-AEC2-EEE8D1F34C5C Q37700557-9158F7DE-6AC6-4363-A932-6B48215B35B3 Q38135403-480D8BF6-618D-4AD4-835E-CD35F5DBBEA2 Q38225280-2E00ACA1-FF3B-42A6-85DD-3BBD6B040909 Q38675179-D86F4190-F97B-4758-BF32-BBC840D3C3B0 Q38757545-2A07D6DD-F001-4656-9216-530E74FB68E6 Q41601302-9900782E-072E-4CB4-9F25-AF091977342C Q42703656-2639DD1D-92A0-4FD8-B15E-CE79016AC2E4 Q47255819-821DDAD4-3032-4F14-9416-39CC92C90D6A Q47620753-07158CAB-5F1D-45FD-83DB-E5BB0EAB3C62 Q48139502-D221DC90-F9F3-4961-B09E-8597EA66F45F Q48223744-1A05ADB3-C02D-4026-92C9-C73389B8C29A Q48326603-DAFAA2B4-E0C5-4B67-9B98-403C722503EA Q51126429-1B55F4DA-670E-46F5-9D14-5D58BF02D3AD Q51528807-9672A961-AC8F-4BD6-A4A1-6E5469A442B5 Q55034682-4F4BAC93-4A7D-4986-A4E7-AAA0331466BB

P2860

Quantification of the Young's modulus of the primary plant cell wall using Bending-Lab-On-Chip (BLOC).

http://www.wikidata.org/entity/Q45396941

description

2013 nî lūn-bûn

@nan

2013年の論文

@ja

2013年学术文章

@wuu

2013年学术文章

@zh

2013年学术文章

@zh-cn

2013年学术文章

@zh-hans

2013年学术文章

@zh-my

2013年学术文章

@zh-sg

2013年學術文章

@yue

2013年學術文章

@zh-hant

name

Quantification of the Young's ...... ng Bending-Lab-On-Chip (BLOC).

@en

Quantification of the Young's ...... wall using Bending-Lab-On-Chip

@nl

type

label

Quantification of the Young's ...... ng Bending-Lab-On-Chip (BLOC).

@en

Quantification of the Young's ...... wall using Bending-Lab-On-Chip

@nl

prefLabel

Quantification of the Young's ...... ng Bending-Lab-On-Chip (BLOC).

@en

Quantification of the Young's ...... wall using Bending-Lab-On-Chip

@nl

P1433

Q45396941-BACEC319-9131-4ED2-8036-6FD20AE64B13

P1476

Q45396941-8F5A0EFD-3FAB-478F-BEBD-5ED2D56E45D4

P2093

Q45396941-4613DB35-56AA-49CF-B188-42DA891478D8

Q45396941-4C3781AF-6B61-4BFA-99F1-3CB55344F721

Q45396941-8E8DD3DC-CE27-4A97-9AA3-080E3C1DE761

Q45396941-C0668326-DF4F-4C3F-A6A3-7AA54E68AD9E

Q45396941-F63BCD4E-C216-4925-A25E-425B50B25D1F

P2860

Q45396941-00AACFE2-5407-48CD-A4EC-5BF224F41F43

Q45396941-02CB1F3F-FDFF-43DB-860D-F3D194243296

Q45396941-041F8020-9048-40C4-B8E2-0E0ABB5172A6

Q45396941-054078EE-176B-4EE3-8D45-BE67777891CA

Q45396941-21381C1D-CD79-4C03-9377-BEAE35993763

Q45396941-2BA11FE4-4E7F-41B6-BFA6-D9596D9FB6EC

Q45396941-3266FBD7-058D-4CC9-A4F5-838AE96E6474

Q45396941-3DCA7296-9DCE-4612-A387-883191E84EE2

Q45396941-44FB8D72-CE93-48AB-A53E-92FCD06043D0

Q45396941-4FFF6665-3836-427C-B311-C09CCE4FABC6

P304

Q45396941-CF5AC3B1-08C5-4AB3-AEA1-24DA18FBCCB8

P31

Q45396941-B092F942-3298-415E-9C36-B9C1E6C3942D

P356

Q45396941-4751DEC1-A9B1-41DD-9EC5-90A4052C769E

P433

Q45396941-C1AA08C0-AB8D-4BD2-A5E3-217038EBA302

P478

Q45396941-5C3BD3D5-3337-4248-AC7E-FDD6A50FD449

P577

Q45396941-460DD055-5AF8-4B11-A1D1-938F3BA0DB62

P698

Q45396941-1AB41507-D782-4A36-9AA1-B5B6A5C26F7C

P921

Q45396941-A86FBF09-1409-464A-AC03-B5533AA261DE

P356

P1433

P1476

Quantification of the Young's ...... ng Bending-Lab-On-Chip (BLOC).

@en

P2093

Amir Sanati Nezhad

http://www.w3.org/2001/XMLSchema#string

Anja Geitmann

http://www.w3.org/2001/XMLSchema#string

Mahsa Naghavi

http://www.w3.org/2001/XMLSchema#string

Muthukumaran Packirisamy

http://www.w3.org/2001/XMLSchema#string

Rama Bhat

http://www.w3.org/2001/XMLSchema#string

P2860

Growth of the plant cell wall

Wall extensibility: its nature, measurement and relationship to plant cell growth.

The pollen tube: a soft shell with a hard core.

Comparison of plant cell turgor pressure measurement by pressure probe and micromanipulation.

BioMEMS devices for drug delivery.

THE PRESSURE PROBE: A Versatile Tool in Plant Cell Physiology.

Anisotropic expansion of the plant cell wall.

Structural and signaling networks for the polar cell growth machinery in pollen tubes.

Mechanics and modeling of plant cell growth.

Mechanical modeling and structural analysis of the primary plant cell wall.

P304

2599-2608

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1039/C3LC00012E

http://www.w3.org/2001/XMLSchema#string

P433

13

http://www.w3.org/2001/XMLSchema#string

P478

13

http://www.w3.org/2001/XMLSchema#string

P577

2013-04-10T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

23571308

http://www.w3.org/2001/XMLSchema#string

P921