Proteomics

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Structural and functional differentiation of the light-harvesting protein Lhcb4 during land plant diversification


ABSTRACT: About 475 million years ago plants originated from an ancestral green alga and evolved first as non-vascular and later as vascular plants, becoming the primary producers of biomass on lands. During that time, the light harvesting complex II (LHCII), responsible for sunlight absorption and excitation energy transfer to the Photosystem II (PSII) core, underwent extensive differentiation. Lhcb4 is an ancestral ubiquitous LHCII that during plant diversification continued to change, finally differentiating in flowering plants in up to three isoforms, Lhcb4.1, Lhcb4.2 and Lhcb4.3. The pivotal position of Lhcb4 in the PSII-LHCII supercomplex (PSII-LHCIIsc), as linker for S- and M-trimers of LHCII to the PSII core, suggests its major role in light harvesting modulation. The increased accumulation of Lhcb4.3 observed in PSII-LHCIIsc of plants acclimated to moderate and high light intensities induced us to investigate whether this isoform is present in a specific PSII-LHCIIsc conformation that might explain its light-dependent accumulation. In this work, by combining an improved method for separation of different forms of PSII-LHCIIsc from thylakoids of Pisum sativum grown at increasing irradiances with quantitative proteomics, we assessed that Lhcb4.3 is abundant in PSII-LHCIIsc of type C2S2, irrespective of the plant growth irradiance. Phylogenetic comparative analysis on different taxa of the Viridiplantae lineage and structural modelling further pointed out to an effect of the evolution of different Lhcb4 isoforms on the light-dependent modulation of the PSII-LHCIIsc organization. This information provides new insight on the properties of the Lhcb4 and its isoforms and their role on the structure, function and regulation of PSII.

INSTRUMENT(S): TripleTOF 5600

ORGANISM(S): Pisum Sativum (garden Pea)

TISSUE(S): Plant Cell

DISEASE(S): Disease Free

SUBMITTER: Pascal Albanese  

LAB HEAD: Cristina Pagliano

PROVIDER: PXD011213 | Pride | 2019-03-25

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
B6H_29032018_LIB1.mzML Mzml
B6H_29032018_SWATH1.mzML Mzml
B6H_29032018_SWATH2.mzML Mzml
B6H_29032018_SWATH3.mzML Mzml
B7H_29032018_LIB1.mzML Mzml
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Structural and functional differentiation of the light-harvesting protein Lhcb4 during land plant diversification.

Albanese Pascal P   Manfredi Marcello M   Marengo Emilio E   Saracco Guido G   Pagliano Cristina C  

Physiologia plantarum 20190501 1


About 475 million years ago, plants originated from an ancestral green alga and evolved first as non-vascular and later as vascular plants, becoming the primary producers of biomass on lands. During that time, the light-harvesting complex II (LHCII), responsible for sunlight absorption and excitation energy transfer to the photosystem II (PSII) core, underwent extensive differentiation. Lhcb4 is an ancestral LHCII that, in flowering plants, differentiated into up to three isoforms, Lhcb4.1, Lhcb  ...[more]

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