Garuda - Garba Rujukan Digital

Overexpression of chitinase gene with a GC-rich synthetic enhancer in tobacco plant (Nicotiana tabacum L.) Overekspresi gen kitinase dengan enhancer sintetis kaya GC pada tanaman tembakau (Nicotiana tabacum L.) D SANTOSO; T CHAIDAMSARI; A BUDIANI; H MINARSIH; S DWI UTOMO; . SISWANTO
E-Journal Menara Perkebunan Vol 68, No 2: Desember 2000
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Ringkasan Perakitan tanaman perkebunan toleran terhadap serangan cendawan patogenik dilakukan dengan mengoverekspresikan gen penyandi kitinase. Untuk itu elemen DNA peningkat ekspresi (enhancer E52) yang berupa oligonukleotida 52 pb dan kaya kandungan basa purin (GC) disisipkan di ujung 5’ konstruk 35S-chi. Penyisipan E52 tersebut dilakukan secara lebih terarah pada situs ganda HindIII-SalI dari MCS pCAMBIA2301. Melalui situs HindIII yang terletak tepat di ujung 3’ E52, konstruk 35S-chi kemudian disambungkan dengan E52 pada pCAMBIA tersebut. Transformasi DNA rekombinan ke dalam sel tembakau dikerjakan melalui perantaraan Agrobacterium tumefaciens LBA4404. Sel tanaman transgenik diseleksi dan diregenrasi dalam media yang mengandung 3% sukrosa, 0,5 mg/L diregenerasikan pada media MS padat benzilaminopurin (BAP) dan 50 mg/L kanamisin. Pada media ini tunas transgenik tembakau mulai terbentuk setelah 5 minggu penanaman. Analisis tingkat aktivitas enzimatis menunjukkan bahwa aktivitas kitinase pada tembakau transgenik 40 hingga 80 kali lebih tinggi daripada non-transgenik. Pengujian hibridisasi protein menggunakan antibodi anti-kitinase, dot blot dan western blot, membuktikan bahwa enhancer tersebut dapat meningkatkan ekspresi transgen chi pada tanaman tembakau.Summary Development of estate crops tolerant to pathogenic fungi is conducted by overexpressing chi gene. For this purpose, a synthetic enhancer consisting of 52 base pairs and GC-rich was inserted at immediate 5’ end of a 35S-chi cassette. Insertion of the E52 was directed at HindIII-SalI restriction sites of the pCAMBIA2301 MCS. With HindIII restriction site located just after the 3’ end of the E52 sequence, the 35S-chi construct was then ligated with the E52 of the pCAMBIA. Transformation of the resulting recombinant DNA into tobacco cells was mediated by Agrobacterium tumefaciens LBA4404. The transgenic cells were selected and regenerated on a solid MS medium supplemented with 3% sucrose, 0.5 mg/L benzylamino purine (BAP) and 50 mg/L kanamycin. Tobacco shoots were initiated after 5 weeks inoculation on the selection media. Enzymatic analysis demonstrated that chitinase activity of transgenic tobacco was 40 to 80 folds higher than that of the control plant. Analysis of enzymatic activity using hybridization with anti-chitinase antibody indicated that the level of chitinase activity in the transgenic tobacco carrying the enhancer is higher than that without enhancer. These data suggest that the enhancer improved the expression of chi transgene in tobacco.

Development of tobacco plant cells in the presence of kanamycin at various levels for transgenesis Perkembangan sel tanaman tembakau pada kanamisin berbagai konsentrasi untuk transgenesis D SANTOSO; Ferry I CUGITO; H MINARSIH
E-Journal Menara Perkebunan Vol 68, No 2: Desember 2000
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Ringkasan Diferensiasi sel tanaman dalam proses regenerasi tanaman transgenik umumnya dilakukan bersamaan dengan proses seleksi menggunakan bahan penyeleksi. Kanamisin merupakan salah satu antibiotika yang biasa digunakan dalam proses seleksi. Dengan spektrum yang luas, kanamisin menghambat pertumbuhan sel dan mengganggu proses translasi pada saat ekspresi gen. Untuk tujuan regenerasi tanaman transgenik yang mengeks-presikan gen NPTII, konsentrasi kanamisin perlu dioptimasi sehingga cukup untuk membedakan sel yang tertransform dengan yang tidak tertransform. Penelitian ini betujuan untuk mempelajari perkembangan eksplan tembakau pada media regenerasi yang mengandung kanamisin. Kecepatan inisiasi tunas dan jumlah tunas terbentuk merupakan kriteria utama untuk evaluasi. Ekstrak protein dari eksplan yang berregenerasi dianalisa dengan SDS-PAGE untuk melihat kemungkinan keterlibatan protein tertentu dalam proses regenerasi tersebut. Hasil penelitian menunjukkan bahwa konsentrasi optimum kanamisin untuk tujuan tersebut adalah 50 mg/L, dimana tunas tembakau transgenik terinisiasi pada hari ke 25 kultur sedangkan eksplan non-transgenik hingga hari ke 56 kultur tidak mampu menginisiasi tunas. Data analisis protein menunjukkan adanya 3 protein dengan ukuran terdenaturasi relatif kecil, antara 14,5 hingga 21,5 kDa pada eksplan yang berregenerasi, namun tidak dijumpai pada ekstrak eksplan yang tidak berregenerasi. Ketiga protein ini kemungkinan terlibat dalam proses regenerasi. Summary Plant cell differentiation toward regeneration of transgenic plants is usually conducted simultaneously with selection process in the presence of selecting agent. Kanamycin is one of antibiotics widely used as selection agent. Having a wide spectrum activity, kanamycin hinders cell growth through inhibition of translation process during gene expression. To regenerate transgenic plant expressing NPTII gene, the level of kanamycin has to be optimized so that high enough to differentiate genetically transformed cells from those untransformed. This research is aimed to investigate in vitro development of tobacco cells toward plantlet regeneration on the media supplemented with kanamycin. The rate of shoot initiation and number of shoots formed are the major criteria evaluated. Protein extracts of the regenerated explants were analyzed with SDS-PAGE to examine possible involvement of specific proteins in the regeneration process. The experimental result suggested that optimum level of kanamycin for the purpose is 50 mg/L, by which transgenic tobacco shoots were initiated at 25-day culture whereas the untransformed explants did not initiated any shoots even though after 56-day culture. Preliminary data from the protein analysis indicated the presence of relatively small size denatured proteins, between 14.5 and 21.5 kDa, likely to involved in the regeneration process.

Overexpression of chitinase gene with a GC-rich synthetic enhancer in tobacco plant (Nicotiana tabacum L.) Overekspresi gen kitinase dengan enhancer sintetis kaya GC pada tanaman tembakau (Nicotiana tabacum L.) D SANTOSO; T CHAIDAMSARI; A BUDIANI; H MINARSIH; S DWI UTOMO; . SISWANTO
Menara Perkebunan Vol. 68 No. 2: 68 (2), 2000
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v68i2.139

Ringkasan Perakitan tanaman perkebunan toleran terhadap serangan cendawan patogenik dilakukan dengan mengoverekspresikan gen penyandi kitinase. Untuk itu elemen DNA peningkat ekspresi (enhancer E52) yang berupa oligonukleotida 52 pb dan kaya kandungan basa purin (GC) disisipkan di ujung 5’ konstruk 35S-chi. Penyisipan E52 tersebut dilakukan secara lebih terarah pada situs ganda HindIII-SalI dari MCS pCAMBIA2301. Melalui situs HindIII yang terletak tepat di ujung 3’ E52, konstruk 35S-chi kemudian disambungkan dengan E52 pada pCAMBIA tersebut. Transformasi DNA rekombinan ke dalam sel tembakau dikerjakan melalui perantaraan Agrobacterium tumefaciens LBA4404. Sel tanaman transgenik diseleksi dan diregenrasi dalam media yang mengandung 3% sukrosa, 0,5 mg/L diregenerasikan pada media MS padat benzilaminopurin (BAP) dan 50 mg/L kanamisin. Pada media ini tunas transgenik tembakau mulai terbentuk setelah 5 minggu penanaman. Analisis tingkat aktivitas enzimatis menunjukkan bahwa aktivitas kitinase pada tembakau transgenik 40 hingga 80 kali lebih tinggi daripada non-transgenik. Pengujian hibridisasi protein menggunakan antibodi anti-kitinase, dot blot dan western blot, membuktikan bahwa enhancer tersebut dapat meningkatkan ekspresi transgen chi pada tanaman tembakau.Summary Development of estate crops tolerant to pathogenic fungi is conducted by overexpressing chi gene. For this purpose, a synthetic enhancer consisting of 52 base pairs and GC-rich was inserted at immediate 5’ end of a 35S-chi cassette. Insertion of the E52 was directed at HindIII-SalI restriction sites of the pCAMBIA2301 MCS. With HindIII restriction site located just after the 3’ end of the E52 sequence, the 35S-chi construct was then ligated with the E52 of the pCAMBIA. Transformation of the resulting recombinant DNA into tobacco cells was mediated by Agrobacterium tumefaciens LBA4404. The transgenic cells were selected and regenerated on a solid MS medium supplemented with 3% sucrose, 0.5 mg/L benzylamino purine (BAP) and 50 mg/L kanamycin. Tobacco shoots were initiated after 5 weeks inoculation on the selection media. Enzymatic analysis demonstrated that chitinase activity of transgenic tobacco was 40 to 80 folds higher than that of the control plant. Analysis of enzymatic activity using hybridization with anti-chitinase antibody indicated that the level of chitinase activity in the transgenic tobacco carrying the enhancer is higher than that without enhancer. These data suggest that the enhancer improved the expression of chi transgene in tobacco.

Development of tobacco plant cells in the presence of kanamycin at various levels for transgenesis Perkembangan sel tanaman tembakau pada kanamisin berbagai konsentrasi untuk transgenesis D SANTOSO; Ferry I CUGITO; H MINARSIH
Menara Perkebunan Vol. 68 No. 2: 68 (2), 2000
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v68i2.140

Ringkasan Diferensiasi sel tanaman dalam proses regenerasi tanaman transgenik umumnya dilakukan bersamaan dengan proses seleksi menggunakan bahan penyeleksi. Kanamisin merupakan salah satu antibiotika yang biasa digunakan dalam proses seleksi. Dengan spektrum yang luas, kanamisin menghambat pertumbuhan sel dan mengganggu proses translasi pada saat ekspresi gen. Untuk tujuan regenerasi tanaman transgenik yang mengeks-presikan gen NPTII, konsentrasi kanamisin perlu dioptimasi sehingga cukup untuk membedakan sel yang tertransform dengan yang tidak tertransform. Penelitian ini betujuan untuk mempelajari perkembangan eksplan tembakau pada media regenerasi yang mengandung kanamisin. Kecepatan inisiasi tunas dan jumlah tunas terbentuk merupakan kriteria utama untuk evaluasi. Ekstrak protein dari eksplan yang berregenerasi dianalisa dengan SDS-PAGE untuk melihat kemungkinan keterlibatan protein tertentu dalam proses regenerasi tersebut. Hasil penelitian menunjukkan bahwa konsentrasi optimum kanamisin untuk tujuan tersebut adalah 50 mg/L, dimana tunas tembakau transgenik terinisiasi pada hari ke 25 kultur sedangkan eksplan non-transgenik hingga hari ke 56 kultur tidak mampu menginisiasi tunas. Data analisis protein menunjukkan adanya 3 protein dengan ukuran terdenaturasi relatif kecil, antara 14,5 hingga 21,5 kDa pada eksplan yang berregenerasi, namun tidak dijumpai pada ekstrak eksplan yang tidak berregenerasi. Ketiga protein ini kemungkinan terlibat dalam proses regenerasi. Summary Plant cell differentiation toward regeneration of transgenic plants is usually conducted simultaneously with selection process in the presence of selecting agent. Kanamycin is one of antibiotics widely used as selection agent. Having a wide spectrum activity, kanamycin hinders cell growth through inhibition of translation process during gene expression. To regenerate transgenic plant expressing NPTII gene, the level of kanamycin has to be optimized so that high enough to differentiate genetically transformed cells from those untransformed. This research is aimed to investigate in vitro development of tobacco cells toward plantlet regeneration on the media supplemented with kanamycin. The rate of shoot initiation and number of shoots formed are the major criteria evaluated. Protein extracts of the regenerated explants were analyzed with SDS-PAGE to examine possible involvement of specific proteins in the regeneration process. The experimental result suggested that optimum level of kanamycin for the purpose is 50 mg/L, by which transgenic tobacco shoots were initiated at 25-day culture whereas the untransformed explants did not initiated any shoots even though after 56-day culture. Preliminary data from the protein analysis indicated the presence of relatively small size denatured proteins, between 14.5 and 21.5 kDa, likely to involved in the regeneration process.

Title

Found 4 Documents
Search

Abstract

Abstract

Abstract

Abstract

Title Search

Found 4 Documents Search

Abstract

Abstract

Abstract

Abstract

Title

Found 4 Documents
Search