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"Coconut is a very important plant for the livelihood of people in tropical countries. It is also used as an icon of tropical region. Coconut fruit is very heavy and can cause injuries if the fruit falls down and hits somebody who happens to be underneath a coconut tree. In order to avoid the accident,  the coconut fruits have to be regularly cut off. Coconut tree originated from in vitro cultured endosperm is a triploid plant that produces seedless fruit (without endocarp). Coconut fruit without endocarp is not heavy. The objective of this study was to investigate plant regeneration of fresh and in vitro cultured coconut endosperms. The fresh and developed in vitro cultured coconut endosperms were observed using histological analysis. Solid endosperm of seven month-old postanthesis coconut from “Samoan Dwarf†cultivar was freshly picked up and cultured in vitro on modified Branton & Blake formula. Histological study of fresh coconut endosperm showed that the endosperm consisted of parenchyma cells, which were relatively uniform in shape and size, with some nuclei consisted of 1 – 5 nucleoli. Three month-old calli of in vitro grown coconut endosperm in semi solid media showed that its cells varied in shape and size, characterized by high nucleus to cytoplasm ratio, high starch, protein and lipid contents which underwent many divisions. Seven month-old calli of in vitro grown coconut endosperm in liquid media showed embryogenic cells which resembled proembryos. Fourteen month-old bud-like structure of coconut endosperm in semi solid media showed a meristematic layer, tunica-corpus structure, cortex-like region and tracheids of xylem. These results indicated that the bud-like structure was an early stage of shoot bud formation in coconut endosperm. This is the first report of early stage of shoot bud formation occurring on coconut endosperm cultured in vitro."

"Telah dilakukan penelitian yang bertujuan untuk melakukan transformasi gen Osdep1-Tc ke kalus padi cv. Taipei 309 menggunakan Agrobacterium tumefaciens. Transformasi gen Osdep1-Tc dilakukan menggunakan A. tumefaciens strain LBA4404 yang membawa plasmid rekombinan pCAMBIA1301-Osdep1-Tc, mengandung gen reporter (gus), gen nptII dan hptI. Gen Osdep1-Tc yang telah dikloning ke vektor pengklonaan pGEM-T Easy pada penelitian sebelumnya digunakan sebagai sampel untuk kemudian isubkloning ke pCAMBIA 1301 dan ditransformasikan ke dalam Escherichia coli DH5α sehingga dihasilkan vektor rekombinan pCAMBIA-Osdep1-Tc. Vektor rekombinan kemudian dielektroporasi ke A. tumefaciens dan ditransformasi ke kalus embriogenik padi. Aktivitas GUS pada kalus berhasil dideteksi 3 hari setelah infeksi dengan A. tumefaciens. Analisis PCR kalus transforman menunjukkan bahwa gen hptI berhasil terintegrasi dengan stabil pada kelima kalus uji.

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Research about transformation of Osdep1-Tc gene into rice calli cv. Taipei 309 using Agrobacterium tumefaciens had been done. Transformation of Osdep1-Tc was carried out using A. tumefaciens strain LBA4404, harbored recombinant plasmid pCAMBIA1301-Osdep1-Tc, which contained a reporter gene (gus), hptI and nptII gene. Osdep1-Tc gene had been cloned previously into the pGEM-T Easy cloning vector. The gene was being subcloned into pCAMBIA 1301 and transformed into Escherichia coli DH5α in order to obtain recombinant vectors pCAMBIA-Osdep1-Tc. Furthermore, the recombinant vectors was electroporated into A. tumefaciens and transformed into rice embryogenic calli. GUS activity in rice calli was detected 3 days after infection with A. tumefaciens. PCR analysis of the transformant calli revealed that all five calli tested showed a succeeded stable integration of hptI gene."

"Telah dilakukan penelitian yang bertujuan untuk melakukan transformasi gen OsERA1 ke kalus padi cv. Taipei 309 menggunakan Agrobacterium tumefaciens. Gen OsERA1 adalah gen yang berperan dalam meningkatkan sensitifitas dari sel penjaga pada stomata terhadap asam absisat. Transformasi gen OsERA1 dilakukan menggunakan Agrobacterium tumefaciens strain LBA4404 yang membawa plasmid rekombinan pCAMBIA1301-OsERA1. Gen OsERA1 telah dikloning sebelumnya pada vektor pengklonaan pGEM-T Easy. Gen dipotong dengan enzim restriksi BamHI dan SalI. Gen diligasikan dengan pCAMBIA 1301 dan ditransformasikan ke dalam Escherichia coli DH5α dihasilkan vektor rekombinan pCAMBIA-ERA1. Plasmid vektor rekombinan pCAMBIA-ERA1 belum berhasil ditransformasi ke dalam Agrobacterium tumefaciens dengan elektroporasi tetapi berhasil dilakukan dengan particle bombardment.

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Research about transformation of OsERA1 gene into rice calli cv. Taipei 309 using Agrobacterium tumefaciens had been done. OsERA1 gene is a gene that has response to enhance sensitivity of guard cell to absicid acid. Transfer of OsERA1gene into calli was carried out using Agrobacterium tumefaciens strain LBA4404 harboring recombinant plasmid pCAMBIA1301-OsERA1. OsERA1 gene had been cloned previously in the pGEM-T Easy cloning vector and for inserting into pCAMBIA1301, the gene was digested from cloning vector using restriction enzymes BamHI and SalI. Furthermore, the gene was ligated into vector pCAMBIA 1301 and transformed into Escherichia coli DH5α in order to obtain recombinant plasmid pCAMBIA-OsERA1. The recombinant plasmid pCAMBIAOsERA1has not sucessfully transformed with electroporation into Agrobacterium tumefaciens yet, but it can be transformed by particle bombardment method."