New protein-protein   interaction in multistep phosphorelay
system of Arabidopsis thaliana

a 2012

New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana

HANZELKOVÁ, Zuzana, Radka DOPITOVÁ and Jan HEJÁTKO

Basic information

Original name

New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana

Name in Czech

New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana

Authors

HANZELKOVÁ, Zuzana, Radka DOPITOVÁ and Jan HEJÁTKO

Edition

The Student Scientific Conference on Biotechnology and Biomedicine 2012, 2012

Other information

Language

English

Type of outcome

Konferenční abstrakt

Field of Study

Genetics and molecular biology

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

Organization unit

Central European Institute of Technology

ISBN

978-80-210-5811-8

Keywords (in Czech)

protein-protein interactions, AHP proteins, co-immunoprecipitation, root elongation test

Keywords in English

protein-protein interactions, AHP proteins, co-immunoprecipitation, root elongation test

Změněno: 20/3/2013 17:22, Mgr. Radka Dopitová, Ph.D.

Abstract

V originále

Cytokinins are plant hormons, which play a very important role in plant development and growth. Cytokinin signalling is mediated via a so-called multistep phosphorelay system (MCS) derived from bacterial two-component signalling. In Arabidopsis thaliana the signal is transferred from sensor histidin kinases (AHKs) to nuclear response regulators (ARRs) via histidin phosphotransfer proteins (AHPs). The protein-protein interactions (PPI) within this pathway are quite well described, but little is known about how the MCS interacts with other pathways in A. thaliana at the level of PPI. For this reason new potential interactors of AHP2 and AHP5 have been identified via tandem affinity purification. Two of them – PTAC17 (plastid transcriptionally active chromosome) and CNP (crooked neck protein) were selected for further analysis. Homozygous lines carrying mutations in genes coding both potential interactors were used to study their potential impact on cytokinin signalling and/or response by so called root-elongation test (RET). The co-immunoprecipitation (Co-IP) procedure has been optimized to confirm interaction between PTAC17 and AHPs and to find out the interaction specificity of PTAC17 towards all AHPs (AHP1-AHP6). To achieve this, a transgenic suspension culture overexpressing individual AHPs in fusion with GFP was prepared. PTAC17 was expressed using the in vitro transcription/translation system. Optimizations and results from Co-IP as well as quantification of CK response in ptac17 and cnp mutants via RET will be presented.

Citovat

HANZELKOVÁ, Zuzana, Radka DOPITOVÁ and Jan HEJÁTKO. New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana. In The Student Scientific Conference on Biotechnology and Biomedicine 2012. 2012. ISBN 978-80-210-5811-8.

@proceedings{1092302,
   author = {Hanzelková, Zuzana and Dopitová, Radka and Hejátko, Jan},
   booktitle = {The Student Scientific Conference on Biotechnology and Biomedicine 2012},
   keywords = {protein-protein interactions, AHP proteins, co-immunoprecipitation, root elongation test},
   language = {eng},
   isbn = {978-80-210-5811-8},
   title = {New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana},
   year = {2012}
}

TY  - CONF
ID  - 1092302
AU  - Hanzelková, Zuzana - Dopitová, Radka - Hejátko, Jan
PY  - 2012
TI  - New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana
SN  - 9788021058118
KW  - protein-protein interactions, AHP proteins, co-immunoprecipitation, root elongation test
N2  - Cytokinins are plant hormons, which play a very important role in plant development and growth. Cytokinin signalling is mediated via a so-called multistep phosphorelay system (MCS) derived from bacterial two-component signalling. In Arabidopsis thaliana the signal is transferred from sensor histidin kinases (AHKs) to nuclear response regulators (ARRs) via histidin phosphotransfer proteins (AHPs). The protein-protein interactions (PPI) within this pathway are quite well described, but little is known about how the MCS interacts with other pathways in A. thaliana at the level of PPI. For this reason new potential interactors of AHP2 and AHP5 have been identified via tandem affinity purification. Two of them – PTAC17 (plastid transcriptionally active chromosome) and CNP (crooked neck protein) were selected for further analysis. Homozygous lines carrying mutations in genes coding both potential interactors were used to study their potential impact on cytokinin signalling and/or response by so called root-elongation test (RET). The co-immunoprecipitation (Co-IP) procedure has been optimized to confirm interaction between PTAC17 and AHPs and to find out the interaction specificity of PTAC17 towards all AHPs (AHP1-AHP6). To achieve this, a transgenic suspension culture overexpressing individual AHPs in fusion with GFP was prepared. PTAC17 was expressed using the in vitro transcription/translation system. Optimizations and results from Co-IP as well as quantification of CK response in ptac17 and cnp mutants via RET will be presented.
ER  -

HANZELKOVÁ, Zuzana, Radka DOPITOVÁ and Jan HEJÁTKO. New protein-protein interaction in multistep phosphorelay system of Arabidopsis thaliana. In \textit{The Student Scientific Conference on Biotechnology and Biomedicine 2012}. 2012. ISBN~978-80-210-5811-8.

Detailed Information on Publication Record