J 2007

Glutathione and zeaxanthin formation during high light stress in foliose lichens

ŠTEPIGOVÁ, Jana, Hana VRÁBLÍKOVÁ, Jaroslav LANG, Kristýna VEČEŘOVÁ, Miloš BARTÁK et. al.

Basic information

Original name

Glutathione and zeaxanthin formation during high light stress in foliose lichens

Name in Czech

Tvorba glutationu a zeaxantinu u lišejníků během stresu indukovaného vysokou ozářeností

Authors

ŠTEPIGOVÁ, Jana (703 Slovakia, guarantor), Hana VRÁBLÍKOVÁ (203 Czech Republic), Jaroslav LANG (203 Czech Republic), Kristýna VEČEŘOVÁ (203 Czech Republic) and Miloš BARTÁK (203 Czech Republic)

Edition

Plant, Soil and Environment, Prague, 2007, 1214-1178

Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

10600 1.6 Biological sciences

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

Impact factor

Impact factor: 0.170 in 2004

RIV identification code

RIV/00216224:14310/07:00020913

Organization unit

Faculty of Science

UT WoS

000254859700002

Keywords in English

photoinhibition antioxidants lichen

Tags

International impact, Reviewed
Změněno: 26/6/2009 20:04, Mgr. Hana Cempírková, Ph.D.

Abstract

V originále

It was shown that the ratio of oxidized to reduced glutathione increased after treatment of thalli by high light. In lichens, majority of studies focused on glutathione were oriented to its dynamics during thallus desiccation. Involvement of glutathione into high light stress in lichens was studied in our experiments. Zeaxanthin (Z) is a xanthophyll-cycle pigment located in chloroplastic thylakoid membranes. It plays an important role in a dissipation of an excess energy. It is formed from a diepoxide violaxanthin via monoepoxide antheraxanthine. Deepoxidation of V is conditioned by presence of light. V recovers from Z in dark and there are several hypothesis trying to describe its mechanism. It is possible that Z functions as a direct acceptor of energy from excited chlorophyll a in a reaction centre of photosystem II. Z may interact and deactivate ROS. Another hypothesis postulates that Z changes conformation of light harvesting complexes and results in enhanced thermal dissipation of excess energy. The aim of our paper was to quantify glutathione and zeaxanthin dynamics during high light stress and recovery in two lichen species: Lasallia pustulata, Umbilicaria antarctica.

In Czech

Cílem práce bylo kvantifikovat dynamiku glutationu a zeaxantinu v průběhu fotoinhibičního stresu a během následného zotavení. Experimentálními lišejníky byly Lasallia pustulata, Umbilicaria antarctica.

Links

GA522/06/0979, research and development project
Name: Mechanismy odolnosti rostlin proti ROS indukovaným ve fotosyntetickém aparátu během fotoinhibičního stresu
Investor: Czech Science Foundation, Mechanism of plant resistance against ROS induced in photosynthetic apparatus by a photoinhibitory stress
GP206/06/P209, research and development project
Name: Změny v množství a ve složení antioxidantů v lišejnících vystavených vysokému záření
Investor: Czech Science Foundation, Changes in the content and composition of antioxidants in high-light stressed lichens