about
Distribution of cortical endoplasmic reticulum determines positioning of endocytic events in yeast plasma membranePlasma membrane microdomains regulate turnover of transport proteins in yeastMembrane potential governs lateral segregation of plasma membrane proteins and lipids in yeast.Male-female communication triggers calcium signatures during fertilization in Arabidopsis.Optical sensors for monitoring dynamic changes of intracellular metabolite levels in mammalian cells.In vivo biochemistry: applications for small molecule biosensors in plant biology.Evidence for coupled biogenesis of yeast Gap1 permease and sphingolipids: essential role in transport activity and normal control by ubiquitinationTime-lapse fluorescence imaging of Arabidopsis root growth with rapid manipulation of the root environment using the RootChip.Fluorescent sensors reporting the activity of ammonium transceptors in live cells.Loss of GET pathway orthologs in Arabidopsis thaliana causes root hair growth defects and affects SNARE abundance.Membrane microdomains, rafts, and detergent-resistant membranes in plants and fungi.Soil-on-a-Chip: microfluidic platforms for environmental organismal studies.The biosensor toolbox for plant developmental biology.Cellulose-Derived Oligomers Act as Damage-Associated Molecular Patterns and Trigger Defense-Like Responses.Lipid raft-based membrane compartmentation of a plant transport protein expressed in Saccharomyces cerevisiaeThe RootChip: an integrated microfluidic chip for plant science.Sed1p and Srl1p are required to compensate for cell wall instability in Saccharomyces cerevisiae mutants defective in multiple GPI-anchored mannoproteins.Border control--a membrane-linked interactome of Arabidopsis.Dynamic imaging of cytosolic zinc in Arabidopsis roots combining FRET sensors and RootChip technology.Opportunities to explore plant membrane organization with super-resolution microscopy.Green light for quantitative live-cell imaging in plants.Dual-flow-RootChip reveals local adaptations of roots towards environmental asymmetry at the physiological and genetic levels.Furrow-like invaginations of the yeast plasma membrane correspond to membrane compartment of Can1Multiple cyclic nucleotide-gated channels coordinate calcium oscillations and polar growth of root hairsComparing Arabidopsis receptor kinase and receptor protein-mediated immune signaling reveals BIK1-dependent differencesDistinct RopGEFs Successively Drive Polarization and Outgrowth of Root Hairs
P50
Q27304682-C0FBE098-701A-4116-A0E2-180C4CC99197Q27939761-DC8B6E42-9219-434E-857B-3AA1D4169409Q30478876-0516864E-48A2-4B3A-AF05-EEB481751805Q34086493-95785C03-99C3-4138-934F-5AFFC0F48DD6Q34228523-A0D74B6D-EB6D-425B-B959-AC28F1545432Q34339390-E68F430F-4719-4D53-907E-85C2F8D0C661Q35942358-ED694EC4-D181-49C5-9E05-7FC5F645BF90Q36317351-5905DA16-BF8B-447B-A0F4-B78891BF2027Q36977391-9E20A48A-DFB3-4366-ADCB-D1AE88F91586Q37682284-EFFE64AC-3062-4A8B-B5D4-A4977E7CCD7EQ38103598-F7567C1C-6760-4359-A4D6-CA89F0E5274DQ38662299-CFBA44FE-47CF-4CD2-B974-1566A638E68CQ38708916-FAD803BC-1BD7-4BE6-B6C4-0CE61EB157BEQ40315398-FF98A4C5-85A5-4947-BE45-B7CAD47F6692Q41488116-6C73D04B-FAB3-4498-9E06-AF4175CE9792Q44585354-32363740-74DC-4CCB-934D-F4690EC2C61DQ44912250-02C396FF-2211-4AEB-8AF2-7BB6F1FFD4C9Q44998219-CAE015B5-FD93-4350-8C2B-E2461093F020Q45363265-14914CC5-D71A-49E6-81CB-79633341016EQ46083738-33286B68-A8B2-4EA6-9FEE-B9371A6CCF06Q48183573-AA46A01B-E0EC-4A15-B395-04520E01C777Q48326603-F1836DA8-A6CC-43F6-BAC6-0015B00AA6C4Q84306625-E521A64E-1500-47B6-9D28-7AC8746DE1F2Q91592491-8E9B7D7C-F051-41AD-8606-B0E19323E305Q91720307-06184EAB-D5D0-4C64-9642-C5117392DCC5Q92143338-1D1A5109-C7C1-4C26-A3F0-95F3406FC94C
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Guido Grossmann
@ast
Guido Grossmann
@en
Guido Grossmann
@es
Guido Grossmann
@nl
Guido Grossmann
@sl
type
label
Guido Grossmann
@ast
Guido Grossmann
@en
Guido Grossmann
@es
Guido Grossmann
@nl
Guido Grossmann
@sl
prefLabel
Guido Grossmann
@ast
Guido Grossmann
@en
Guido Grossmann
@es
Guido Grossmann
@nl
Guido Grossmann
@sl
P214
P1053
D-3537-2014
P106
P1153
7101824227
P21
P214
P31
P3829
P496
0000-0001-7529-9244
P735
P7859
viaf-81799023