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<h3>Super-HHL1: protecting plants from photodamage</h3>
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In tropical and subtropical areas, under high-irradiance conditions, plants must efficiently protect photosystem II (PSII) from damage. In this project, we built several genetic circles with the chloroplast protein HYPERSENSITIVE TO HIGH LIGHT1 (HHL1) which response to high light and functions in protecting PSII against photodamage. We further measured the expression efficiency of HHL1 promoted by various photosensitive promoters with high-light exposure, and named the most effective one as Super-HHL1. Moreover, we studied the potential application for Super-HHL1 agriculture and economic. Taken together, we suggest that Super-HHL1 might effectively help various plants repairing PSII under high light.
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                                    <h1><strong>Project description</strong></h1>
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                                    <h2><strong>The light can be harmful to plants</strong></h2>
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<p><div class="text_font" style="text-indent:0em;">Photosynthesis is a necessary process for many plants to produce organics to support their livings.However,the photosynthesis carries great risks to plants beacause the excess energy of light may have a negative effect on the photosynthetic efficiency and photosynthetic apparatus.</div></p>
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                                    <h2><strong>Photodamage to plants</strong></h2>
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<p><div class="text_font">If plants are exposed to light intensities that exceed their photosynthetic capacity,photodamage may happen.The light damages the plants  mainly  by  damaging  their DNA,various protein  complexes  in the  thylakoid  membrane,  and by inducing  the production of  reative oxygen  species (ROS) in chloroplasts. Medium or high concentration of ROS causes apoptosis,or even necrosis of plant cells.Therefore,under extreme light intensity conditions, plants may die.</div></p>
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                                    <h2><strong>PhotosystemⅡ can suffer from the process of photosynthesis</strong></h2>
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<p><div class="text_font">The excess light energy may slow down the rate of photosynthesis,which is known as photoinhibition. Photoinhibition mainly takes place in PhotosystemⅡ(PSⅡ),because PSⅡ is more senstitive to light than the rest of the photosynthetic machinery.PSⅡ,which lies in the thylakoid membrane, together with cytochrome b6/f,PhotosystemⅠand ATP synthase, funtions in harvesting light and transduce solar energy into chemical energy,while PSⅡitself catalyzes the light-driven water oxidation.</div></p>
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<p><div class="text_font">The <font color="navy">reaction center</font> of PSII contains the D1/D2/cytochrome b559 complex, which houses the cofactors necessary for electron transport, together with the nearest light-harvesting chlorophyll binding proteins CP43 and CP47, form the <font color="navy">core complex(core monomer)</font>.</div></p>
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                                    <h2><strong>Mechanisms of  PSⅡ protection in plants agianst high light</strong></h2>
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<p><div class="text_font">PSⅡ is a very fragile photosynthetic apparatus,and plants have evolved diverse photoprotection mechanism,such as the movement of leaves and chloroplasts,screening of photoradiation,ROS scavenging systems ,dissipation of light energy as thermal energy.</div></p>
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<p><div class="text_font">Despite all the regulatory mechanisms against high light,the reaction center within PSⅡ is tend to be damaged in all light intensities.Therefore,plant cells deploy a complex PSⅡ repair system which involves disassembly and reassembly of thylakoid membrane protein complexes. When proteins in the PSII reaction center are damaged ,they undergo rapid repair and reassembly to enable photosynthetic electron transport to continue.When photodamage induce a reversible phophorylation and disassembly of <font color="navy">Light-harvesting-complexⅡ supercomplex</font> in plants,damaged PSII core monomers migrate from grana stacks to stroma-exposed membranes. Damaged PSII core monomers then partially disassemble and release CP43,and PSⅡ subunits(D1 mainly) are degraded by protease.After that,new PSⅡ subunits are synthesized and they are reassem bled into new PSⅡ core monomers,which later migrate to grana stalks and reform functional PSⅡ light-harvesting complex.</div></p>
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                                    <h2><strong>Protein HHL1 helps reduce the damage of plants under high light</strong></h2>
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<p><div class="text_font">HHL1(Hypersensitive to High Light) is a chloroplast transmembrane protein found in Arabidopsis Thaliana. HHL1 is expressed in response to high light and functions in protecting PSⅡ against photodamage and photoinbition.It is found to be abundant in stroma lamallae when PSⅡ  is photodamaged. Research shows that HHL1 helps maintain the accumulation of PSⅡ complexes.</div></p>
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                                    <h2><strong>How does HHL1 protect plants?</strong></h2>
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<p><div class="text_font">HHL1 helps maintain  the  formation and stability of the LHCⅡ ,it  also  affects  the  reassembly of PSⅡ monomers under high light .According to some research,HHL1 may function in guiding the release of CP43 from PSⅡcore monomers.To do this,HHL1 associate with PSⅡ monomers after disassembly of photodamaged <font color="navy">LHCⅡ</font> and monomerization of PSⅡ  dimers.It may specially interact with CP47 and CP43 to help form the binding sites for extrinsic proteins to PSII in PSⅡ repair.</div></p>
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                                    <h2><strong>References</strong></h2>
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<p><div class="text_font"><li>
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1.Honglei Jin, Bing Liu, Lujun Luo, Dongru Feng, Peng Wang, Jun Liu, Qingen Da, Yanming He, Kangbiao Qi, Jinfa Wang, and Hong-Bin Wang(2014)HYPERSENSITIVE TO HIGH LIGHT1 Interacts with LOW QUANTUM YIELD OF PHOTOSYSTEM II1 and Functions inProtection of Photosystem II from Photodamage in Arabidopsis.Plant Cell 26: 1213–1229
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</li></div></p>
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<p><div class="text_font"><li>
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2.Imre Vass(2011)Molecular mechanisms of photodamage in the PhotosystemII complex.Elsevier:1 May 2011
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</li></div></p>
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Latest revision as of 13:34, 19 October 2016

Project description

The light can be harmful to plants

Photosynthesis is a necessary process for many plants to produce organics to support their livings.However,the photosynthesis carries great risks to plants beacause the excess energy of light may have a negative effect on the photosynthetic efficiency and photosynthetic apparatus.

Photodamage to plants

If plants are exposed to light intensities that exceed their photosynthetic capacity,photodamage may happen.The light damages the plants mainly by damaging their DNA,various protein complexes in the thylakoid membrane, and by inducing the production of reative oxygen species (ROS) in chloroplasts. Medium or high concentration of ROS causes apoptosis,or even necrosis of plant cells.Therefore,under extreme light intensity conditions, plants may die.

PhotosystemⅡ can suffer from the process of photosynthesis

The excess light energy may slow down the rate of photosynthesis,which is known as photoinhibition. Photoinhibition mainly takes place in PhotosystemⅡ(PSⅡ),because PSⅡ is more senstitive to light than the rest of the photosynthetic machinery.PSⅡ,which lies in the thylakoid membrane, together with cytochrome b6/f,PhotosystemⅠand ATP synthase, funtions in harvesting light and transduce solar energy into chemical energy,while PSⅡitself catalyzes the light-driven water oxidation.

The reaction center of PSII contains the D1/D2/cytochrome b559 complex, which houses the cofactors necessary for electron transport, together with the nearest light-harvesting chlorophyll binding proteins CP43 and CP47, form the core complex(core monomer).

image

Mechanisms of PSⅡ protection in plants agianst high light

PSⅡ is a very fragile photosynthetic apparatus,and plants have evolved diverse photoprotection mechanism,such as the movement of leaves and chloroplasts,screening of photoradiation,ROS scavenging systems ,dissipation of light energy as thermal energy.

Despite all the regulatory mechanisms against high light,the reaction center within PSⅡ is tend to be damaged in all light intensities.Therefore,plant cells deploy a complex PSⅡ repair system which involves disassembly and reassembly of thylakoid membrane protein complexes. When proteins in the PSII reaction center are damaged ,they undergo rapid repair and reassembly to enable photosynthetic electron transport to continue.When photodamage induce a reversible phophorylation and disassembly of Light-harvesting-complexⅡ supercomplex in plants,damaged PSII core monomers migrate from grana stacks to stroma-exposed membranes. Damaged PSII core monomers then partially disassemble and release CP43,and PSⅡ subunits(D1 mainly) are degraded by protease.After that,new PSⅡ subunits are synthesized and they are reassem bled into new PSⅡ core monomers,which later migrate to grana stalks and reform functional PSⅡ light-harvesting complex.

Protein HHL1 helps reduce the damage of plants under high light

HHL1(Hypersensitive to High Light) is a chloroplast transmembrane protein found in Arabidopsis Thaliana. HHL1 is expressed in response to high light and functions in protecting PSⅡ against photodamage and photoinbition.It is found to be abundant in stroma lamallae when PSⅡ is photodamaged. Research shows that HHL1 helps maintain the accumulation of PSⅡ complexes.

How does HHL1 protect plants?

HHL1 helps maintain the formation and stability of the LHCⅡ ,it also affects the reassembly of PSⅡ monomers under high light .According to some research,HHL1 may function in guiding the release of CP43 from PSⅡcore monomers.To do this,HHL1 associate with PSⅡ monomers after disassembly of photodamaged LHCⅡ and monomerization of PSⅡ dimers.It may specially interact with CP47 and CP43 to help form the binding sites for extrinsic proteins to PSII in PSⅡ repair.

References

  1. 1.Honglei Jin, Bing Liu, Lujun Luo, Dongru Feng, Peng Wang, Jun Liu, Qingen Da, Yanming He, Kangbiao Qi, Jinfa Wang, and Hong-Bin Wang(2014)HYPERSENSITIVE TO HIGH LIGHT1 Interacts with LOW QUANTUM YIELD OF PHOTOSYSTEM II1 and Functions inProtection of Photosystem II from Photodamage in Arabidopsis.Plant Cell 26: 1213–1229
  2. 2.Imre Vass(2011)Molecular mechanisms of photodamage in the PhotosystemII complex.Elsevier:1 May 2011