High light stress and the one-helix LHC-like proteins of the cryptophyte Guillardia theta

• Published in: Biochimica et biophysica acta Vol. 1807; no. 7; pp. 841 - 846
• Main Authors: Funk, Christiane, Alami, Meriem, Tibiletti, Tania, Green, Beverley R.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.07.2011
• Subjects: acclimation; Amino Acid Sequence; antibodies; biogeochemical cycles; carbon; Chlorophyll - chemistry; Cryptomonad; Cryptophyta - chemistry; Cryptophyta - cytology; Fluorescence; genes; Guillardia theta; High light inducible protein; Light; light intensity; Light-harvesting-like protein; lighting; lutein; Molecular Sequence Data; Non-photochemical quenching; Photochemistry; photostability; Photosynthetic Reaction Center Complex Proteins - chemistry; phytoplankton; Phytoplankton - chemistry; Phytoplankton - cytology; Plant Proteins - chemistry; Plant Proteins - genetics; Plastids - genetics; Protein Structure, Secondary; proteins; Sequence Alignment; stress response; Stress, Physiological; zeaxanthin; SCP; HL; Guillardia theta; Chl; Non-photochemical quenching; Light-harvesting-like protein; Hlip; hlipP; HlipNm; NPQ; Cryptomonad; OHP; High light inducible protein; NL
• ISSN: 0005-2728; 0006-3002; 1879-2650; 1879-2650
• DOI: 10.1016/j.bbabio.2011.03.011

Cryptophytes like the cryptomonad Guillardia theta are part of the marine phytoplankton and therefore major players in global carbon and biogeochemical cycles. Despite the importance for the cell in being able to cope with large changes in illumination on a daily basis, very little is known about photoprotection mechanisms in cryptophytes. Here, we show that Guillardia theta is able to perform non-photochemical quenching, although none of the usual xanthophyll cycle pigments (e.g., zeaxanthin, diadinoxanthin, diatoxanthin) are present at detectable levels. Instead, acclimation to high light intensity seems to involve an increase of alloxanthin. Guillardia theta has genes for 2 one-helix “light-harvesting-like” proteins, related to some cyanobacterial genes which are induced in response to high light stress. Both the plastid-encoded gene ( hlipP) and the nucleomorph-encoded gene ( HlipNm) are expressed, but transcript levels decrease rather than increase during high light exposure, suggesting that they are not involved in a high light stress response. The HlipNm protein was detected with a specific antibody; expression was constant, independent of the light exposure. ► The cryptomonad algae Guillardia theta is part of the marine phytoplankton. ► It performs non-photochemical quenching without the usual xanthophyll cycle pigments. ► G. theta contains two genes coding for one-helical light-harvesting-like proteins. ► Both the plastid- (hlipP) and the nucleomorph-encoded gene (HlipNm) are expressed. ► Surprisingly, expression of the hlips decreases during high light stress.