ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)

ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)

Promoter is one part of gene that functions in carrying out the gene expression and its work activity becomes a matter of concern to ensure that expression works effectively. MeEF1A6 (Manihot esculenta Elongation Factor 1 Alfa - 6) promoter is a promoter derived from cassava plants (Manihot esculent...

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Main Author: Gibral Andalusia, Galih
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/49404
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:49404
spelling id-itb.:494042020-09-16T10:02:22ZANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM) Gibral Andalusia, Galih Indonesia Theses Promoter, Transformation, MeEF1A6 INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/49404 Promoter is one part of gene that functions in carrying out the gene expression and its work activity becomes a matter of concern to ensure that expression works effectively. MeEF1A6 (Manihot esculenta Elongation Factor 1 Alfa - 6) promoter is a promoter derived from cassava plants (Manihot esculenta). Previous studies showed that the MeEF1A6 promoter was successfully isolated and inserted into the pBI121 plasmid replacing the CaMV35S promoter. This study aims to analyze the activity of MeEF1A6 promoters in -vivo and in -vitro by using transient and transgenic techniques in tobacco plants. The pBI121 plasmid containing the MeEF1A6 promoter was inserted into Agrobacterium tumefaciens strain AGL1 and LBA4404 as vectors. The promoter's work was analyzed by result from introducing into the tobacco plant using the transient method and stable transformation. Whole part of explants were used for transient study and tested in minimum two biological replicates. Furthermore, the 60 sheets of explant leaves that have been cut 1x1 cm were used for stable transformation. The promoter work analysis was carried out with the GUS (?-glukuronidase) gene histochemical test intergrated with the promoter. The transient test produced a blue color in the roots, stems and leaves on whole repetition. The transverse incision in the stem shows the same blue color as the epidermis and procambium that carried CaMV35S promoter as a control in the epidermis and procambium tissues. Stable transformation using Agrobacterium tumefaciens strain AGL1 as vector produced 43 shoots from 40 calli. A total of 43 shoots were selected with antibiotics and produced 27 planlet that were successfully grown. Some planlet are then reacted with x-gluc as histochemical GUS assay substrat and produced a blue color in the explants. The study result indicate that the MeEF1A6 promoter has been successfully introduced and could work. While the stable transformation with Agrobacterium tumefaciens strain LBA4404 as a vector produced 50 calli from a total of 60 leaf explants, but the age of the calli did not reach the shoot growth stage. GUS histochemical test has also been performed on the calli and produced blue color in the callus growth region. In conclusion, MeEF1A6 promoter could work on plant tissue in roots, stems, leaves and tissues that connect meristems such as procambium and calli tissue in tobacco plants. This reinforces the suspicion that the MeEF1A6 promoter perfoms work constitutionally as a constitutive promoter. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Promoter is one part of gene that functions in carrying out the gene expression and its work activity becomes a matter of concern to ensure that expression works effectively. MeEF1A6 (Manihot esculenta Elongation Factor 1 Alfa - 6) promoter is a promoter derived from cassava plants (Manihot esculenta). Previous studies showed that the MeEF1A6 promoter was successfully isolated and inserted into the pBI121 plasmid replacing the CaMV35S promoter. This study aims to analyze the activity of MeEF1A6 promoters in -vivo and in -vitro by using transient and transgenic techniques in tobacco plants. The pBI121 plasmid containing the MeEF1A6 promoter was inserted into Agrobacterium tumefaciens strain AGL1 and LBA4404 as vectors. The promoter's work was analyzed by result from introducing into the tobacco plant using the transient method and stable transformation. Whole part of explants were used for transient study and tested in minimum two biological replicates. Furthermore, the 60 sheets of explant leaves that have been cut 1x1 cm were used for stable transformation. The promoter work analysis was carried out with the GUS (?-glukuronidase) gene histochemical test intergrated with the promoter. The transient test produced a blue color in the roots, stems and leaves on whole repetition. The transverse incision in the stem shows the same blue color as the epidermis and procambium that carried CaMV35S promoter as a control in the epidermis and procambium tissues. Stable transformation using Agrobacterium tumefaciens strain AGL1 as vector produced 43 shoots from 40 calli. A total of 43 shoots were selected with antibiotics and produced 27 planlet that were successfully grown. Some planlet are then reacted with x-gluc as histochemical GUS assay substrat and produced a blue color in the explants. The study result indicate that the MeEF1A6 promoter has been successfully introduced and could work. While the stable transformation with Agrobacterium tumefaciens strain LBA4404 as a vector produced 50 calli from a total of 60 leaf explants, but the age of the calli did not reach the shoot growth stage. GUS histochemical test has also been performed on the calli and produced blue color in the callus growth region. In conclusion, MeEF1A6 promoter could work on plant tissue in roots, stems, leaves and tissues that connect meristems such as procambium and calli tissue in tobacco plants. This reinforces the suspicion that the MeEF1A6 promoter perfoms work constitutionally as a constitutive promoter.
format Theses
author Gibral Andalusia, Galih
spellingShingle Gibral Andalusia, Galih
ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
author_facet Gibral Andalusia, Galih
author_sort Gibral Andalusia, Galih
title ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
title_short ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
title_full ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
title_fullStr ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
title_full_unstemmed ANALYSIS OF MEEF1A6 GENE PROMOTER ACTIVITY WITH IN-VITRO AND IN-VIVO USING TRANSIENT AND TRANSGENIC TECHNIQUES IN TOBACCO PLANT (NICOTIANA TABACUM)
title_sort analysis of meef1a6 gene promoter activity with in-vitro and in-vivo using transient and transgenic techniques in tobacco plant (nicotiana tabacum)
url https://digilib.itb.ac.id/gdl/view/49404
_version_ 1822928179713540096

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