Molecular, biochemical and enzymatic characterization of photorespiratory 2‐phosphoglycolate phosphatase (PGLP1) in rice

Phosphoglycolate phosphatase (PGLP, EC3.1.3.18) is a key enzyme in photorespiration. However, genes encoding the rice photorespiratory PGLP have not yet been identified or characterized. Here, PGLP for photorespiration in rice was identified and its enzymatic properties were investigated. In order t...

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Published in:Plant biology (Stuttgart, Germany) Germany), 2022-04, Vol.24 (3), p.510-516
Main Authors: Liu, J.‐Y., He, Z.‐D., Leung, D. W. M., Zeng, S.‐S., Cui, L.‐L., Peng, X.‐X.
Format: Article
Language:English
Subjects:
Carbon dioxide
Chloroplasts
CRISPR
CRISPR/Cas9
Cytoplasm
Dimers
Experimentation
Genes
Genomes
Homology
Leaves
Mutants
Mutation
Nucleotide sequence
Oryza - genetics
Oryza - metabolism
Phenotypes
Phosphatase
Phosphoglycolate phosphatase
Phosphoric Monoester Hydrolases - genetics
Phosphoric Monoester Hydrolases - metabolism
Photorespiration
Plant Leaves - genetics
Plant Leaves - metabolism
Plant Roots - metabolism
Proteins
Rice
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Summary:Phosphoglycolate phosphatase (PGLP, EC3.1.3.18) is a key enzyme in photorespiration. However, genes encoding the rice photorespiratory PGLP have not yet been identified or characterized. Here, PGLP for photorespiration in rice was identified and its enzymatic properties were investigated. In order to define the function of PGLP homologs, rice PGLP mutants were constructed using CRISPR/Cas9, the transcriptional expressions were analyzed by RT‐qPCR, and subcellular localizations were detected via rice protoplast transient expression analysis. Based on sequence alignment, proteins encoded by genes OsPGLP1, OsPGLP2, and OsPGLP3 in the rice genome were predicted to have PGLP activity. Subsequent experimentation showed that OsPGLP1 and OsPGLP3 are chloroplast proteins, while OsPGLP2 is localized in the cytoplasm. In rice leaves, levels of PGLP1 transcript were substantially higher than those of PGLP2 and PGLP3, whereas in roots, levels of PGLP2 transcript were higher than those of PGLP1 and PGLP3. There was no detectable PGLP activity in leaves of the OsPGLP1 mutant, which was non‐viable in ambient air condition (400 ppm CO2) and high CO2 (4000 ppm) was unable to restore normal growth. In contrast, mutations of PGLP2 or PGLP3 did not result in visible phenotypes and the leaf PGLP activities were also unaffected It is suggested that PGLP1, encoded by Os04g0490800, is responsible for photorespiration. Furthermore, PGLP1 is a dimer with an apparent molecular mass of ca.65 kDa, and its Km is 272 μM, with a higher broad optimum pH (7.5 to 10.0) for PGLP activity than that in other higher plants. 2‐phosphoglycolate phosphatase encoded by Os04g0490800, rather than Os09g0261300 and Os12g0420000, is responsible for photorespiration in rice, with a broad optimum pH from 7.5 to 10.0 and Km of 272 μM
ISSN:1435-8603
1438-8677
DOI:10.1111/plb.13389