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El-Mohsnawy, E. (2019). Stabilization of Trimeric PSI within Thermosynechococcus elongatus via Chlorophyll a and Carotenoids Located in Monomer- Monomer Interface Area. Egyptian Journal of Botany, 59(1), 255-267. doi: 10.21608/ejbo.2018.5777.1231
Eithar El-Mohsnawy. "Stabilization of Trimeric PSI within Thermosynechococcus elongatus via Chlorophyll a and Carotenoids Located in Monomer- Monomer Interface Area". Egyptian Journal of Botany, 59, 1, 2019, 255-267. doi: 10.21608/ejbo.2018.5777.1231
El-Mohsnawy, E. (2019). 'Stabilization of Trimeric PSI within Thermosynechococcus elongatus via Chlorophyll a and Carotenoids Located in Monomer- Monomer Interface Area', Egyptian Journal of Botany, 59(1), pp. 255-267. doi: 10.21608/ejbo.2018.5777.1231
El-Mohsnawy, E. Stabilization of Trimeric PSI within Thermosynechococcus elongatus via Chlorophyll a and Carotenoids Located in Monomer- Monomer Interface Area. Egyptian Journal of Botany, 2019; 59(1): 255-267. doi: 10.21608/ejbo.2018.5777.1231

Stabilization of Trimeric PSI within Thermosynechococcus elongatus via Chlorophyll a and Carotenoids Located in Monomer- Monomer Interface Area

Article 19, Volume 59, Issue 1, April 2019, Page 255-267  XML PDF (1005.28 K)
Document Type: Regular issue (Original Article)
DOI: 10.21608/ejbo.2018.5777.1231
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Author
Eithar El-Mohsnawy email orcid
Botany Department, Faculty of Science, Kafrelsheikh University, Kafr El-Sheikh, Egypt
Abstract
Monomeric PSI is found within thermophilic cyanobacteria, i.e., Thermosynechococcus elongatus either in case of iron deficiency or deletion of PsaL subunit. Previous investigations pointed to the role of PsaL in oligomerization of monomeric complexes. Successful isolation of monomeric PSI was achieved only via salt treatment of thylakoid membrane at high temperature (50°C). Here, monomeric PSI was obtained through splitting the purified trimeric PSI in vitro. Selective elimination of carotenoids and Chlorophyll a located in monomer-monemer interface area was performed using a mixture of hexane with different organic solvents.
Hexane-dimethyl sulfoxide mixture was considered the best organic solvent for removal the interface carotenoids and chlorophyll a, where it splatted trimeric PSI completely. Also, the role of carotenoids and chlorophyll a on stabilization of trimeric PSI was proven by sucrose density gradient and blue native gel. 77K spectroscopical emission fluorescence measurements of investigated PSI showed blue shift peaks due to monemerization as well as formation of uncoupled chlorophylls. The efficiency of organic solvents on removing  carotenoids molecules was higher than chlorophyll molecules, where about 12/96 chlorophyll molecules and 12/22 carotenoids molecules have been eliminated in case of complete splitting of trimeric PSI.
Keywords
Trimeric Photosystem I (PSI); <i> Thermosynechococcus elongatus </i>; Chlorophyll a; Carotenoids
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