Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase

This study focused on gene cloning, protein characterization and structural prediction of Transketolase enzyme from Amaranthus tricolor. Oxidative Pentose Phosphate Pathway (OPPP) oxidative pentose phosphate pathway (OPPP) fulfills an essential role in metabolite intermediate of carbohydrate metab...

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Main Author: Rajeendran, Allgendran
Format: Thesis
Language:English
Published: 2013
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Online Access:http://psasir.upm.edu.my/id/eprint/38854/1/FS%202013%2024%20IR.pdf
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spelling my-upm-ir.388542016-03-31T09:58:42Z Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase 2013 Rajeendran, Allgendran This study focused on gene cloning, protein characterization and structural prediction of Transketolase enzyme from Amaranthus tricolor. Oxidative Pentose Phosphate Pathway (OPPP) oxidative pentose phosphate pathway (OPPP) fulfills an essential role in metabolite intermediate of carbohydrate metabolism via the oxidation of glucose-6-phosphate in prokaryotic and eukaryotic cells. The non-oxidative branch of this pathway provides erythrose 4-phosphate for the shikimate pathway, the products of which are used for the synthesis of aromatic amino acids, flavonoids, and lignin, and ribose 5- phosphate for nucleic acid synthesis. Transketolase play important role in photosynthesis and glycolysis. Although the contribution of transketolase in plant system is important, study of this enzyme is still limited. There were only seven plants that TKT genes had been isolated so far, thus this leads to my first objective of my study is to isolate TKT gene from A. tricolor to compare its identity with other organisms. Unlike bacteria, fungal and all other animals, the pentose phosphate pathway is complete in the cytosol of these living system and all enzymes of this pathway localized in the cytosol. However, in plant system, the first phase of pentose phosphate pathway is complete in the cytosol of plant but sub-localization for non-oxidative pentose phosphate pathway is still remain unclear. The identification gene of TKT was done by RT-PCR with gene specific primer, followed by cloning, sequencing and gene expression. The present study had isolated 1963bp transketolase from A. tricolor. Similarity studies using ClustalW2 and phylogenetic studied found that A. tricolor TKT and Spinach sp. transketolase has 85% identity. This may be due to classification system both plants are in the same family, Amarathaceae. Analysis by Target P 1.1 and Chloro P revealed that the A. tricolor is localized in the chloroplast. The complete DNA sequence of the A. tricolor TKT gene was showed an open reading frame of 1943 nucleotides that encodes for 646 amino acid residues. A. tricolor TKT was expressed in E.coli BL21, using pET 32(b+) as a vector. The purified recombinant A. tricolor TKT protein size was determined by SDS-PAGE that give 70kDa. In addition, the 3D protein structure of A.tricolor transketolase was analysed by using PS2 and secondary its structure was predicted by Phyre2. As conclusion, A. tricolor transketolase was successfully isolated and subcellular-localization was found chloroplast in plant system. This led to conclusion that the OPPP is incomplete in the cytosol of A. tricolor. This study shows that A.tricolor transketolase has major functional role in the plastidic through the OPPP and could be an important required step for the production of secondary metabolites in plants. Molecular cloning Amaranths Transketolase 2013 Thesis http://psasir.upm.edu.my/id/eprint/38854/ http://psasir.upm.edu.my/id/eprint/38854/1/FS%202013%2024%20IR.pdf application/pdf en public masters Universiti Putra Malaysia Molecular cloning Amaranths Transketolase
institution Universiti Putra Malaysia
collection PSAS Institutional Repository
language English
topic Molecular cloning
Amaranths
Transketolase
spellingShingle Molecular cloning
Amaranths
Transketolase
Rajeendran, Allgendran
Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
description This study focused on gene cloning, protein characterization and structural prediction of Transketolase enzyme from Amaranthus tricolor. Oxidative Pentose Phosphate Pathway (OPPP) oxidative pentose phosphate pathway (OPPP) fulfills an essential role in metabolite intermediate of carbohydrate metabolism via the oxidation of glucose-6-phosphate in prokaryotic and eukaryotic cells. The non-oxidative branch of this pathway provides erythrose 4-phosphate for the shikimate pathway, the products of which are used for the synthesis of aromatic amino acids, flavonoids, and lignin, and ribose 5- phosphate for nucleic acid synthesis. Transketolase play important role in photosynthesis and glycolysis. Although the contribution of transketolase in plant system is important, study of this enzyme is still limited. There were only seven plants that TKT genes had been isolated so far, thus this leads to my first objective of my study is to isolate TKT gene from A. tricolor to compare its identity with other organisms. Unlike bacteria, fungal and all other animals, the pentose phosphate pathway is complete in the cytosol of these living system and all enzymes of this pathway localized in the cytosol. However, in plant system, the first phase of pentose phosphate pathway is complete in the cytosol of plant but sub-localization for non-oxidative pentose phosphate pathway is still remain unclear. The identification gene of TKT was done by RT-PCR with gene specific primer, followed by cloning, sequencing and gene expression. The present study had isolated 1963bp transketolase from A. tricolor. Similarity studies using ClustalW2 and phylogenetic studied found that A. tricolor TKT and Spinach sp. transketolase has 85% identity. This may be due to classification system both plants are in the same family, Amarathaceae. Analysis by Target P 1.1 and Chloro P revealed that the A. tricolor is localized in the chloroplast. The complete DNA sequence of the A. tricolor TKT gene was showed an open reading frame of 1943 nucleotides that encodes for 646 amino acid residues. A. tricolor TKT was expressed in E.coli BL21, using pET 32(b+) as a vector. The purified recombinant A. tricolor TKT protein size was determined by SDS-PAGE that give 70kDa. In addition, the 3D protein structure of A.tricolor transketolase was analysed by using PS2 and secondary its structure was predicted by Phyre2. As conclusion, A. tricolor transketolase was successfully isolated and subcellular-localization was found chloroplast in plant system. This led to conclusion that the OPPP is incomplete in the cytosol of A. tricolor. This study shows that A.tricolor transketolase has major functional role in the plastidic through the OPPP and could be an important required step for the production of secondary metabolites in plants.
format Thesis
qualification_level Master's degree
author Rajeendran, Allgendran
author_facet Rajeendran, Allgendran
author_sort Rajeendran, Allgendran
title Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
title_short Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
title_full Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
title_fullStr Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
title_full_unstemmed Gene cloning, protein characterization and structural prediction of Amaranthus tricolor transketolase
title_sort gene cloning, protein characterization and structural prediction of amaranthus tricolor transketolase
granting_institution Universiti Putra Malaysia
publishDate 2013
url http://psasir.upm.edu.my/id/eprint/38854/1/FS%202013%2024%20IR.pdf
_version_ 1747811758901297152