Impact of engineering the ATP synthase rotor ring on photosynthesis in tobacco chloroplasts

Author:

Yamamoto Hiroshi1ORCID,Cheuk Anthony2ORCID,Shearman Julia2ORCID,Nixon Peter J2ORCID,Meier Thomas2ORCID,Shikanai Toshiharu1ORCID

Affiliation:

1. Department of Botany, Graduate School of Science, Kyoto University , Kyoto 606-8502 , Japan

2. Department of Life Sciences, Sir Ernst Chain Building-Wolfson Laboratories, Imperial College London , S. Kensington Campus, London SW7 2AZ , UK

Abstract

Abstract The chloroplast ATP synthase produces the ATP needed for photosynthesis and plant growth. The trans-membrane flow of protons through the ATP synthase rotates an oligomeric assembly of c subunits, the c-ring. The ion-to-ATP ratio in rotary F1F0-ATP synthases is defined by the number of c-subunits in the rotor c-ring. Engineering the c-ring stoichiometry is, therefore, a possible route to manipulate ATP synthesis by the ATP synthase and hence photosynthetic efficiency in plants. Here, we describe the construction of a tobacco (Nicotiana tabacum) chloroplast atpH (chloroplastic ATP synthase subunit c gene) mutant in which the c-ring stoichiometry was increased from 14 to 15 c-subunits. Although the abundance of the ATP synthase was decreased to 25% of wild-type (WT) levels, the mutant lines grew as well as WT plants and photosynthetic electron transport remained unaffected. To synthesize the necessary ATP for growth, we found that the contribution of the membrane potential to the proton motive force was enhanced to ensure a higher proton flux via the c15-ring without unwanted low pH-induced feedback inhibition of electron transport. Our work opens avenues to manipulate plant ion-to-ATP ratios with potentially beneficial consequences for photosynthesis.

Funder

KAKENHI

Wellcome Trust

BBSRC Doctoral Training Program

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

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