Garuda - Garba Rujukan Digital

Optimisasi produksi biogas dari limbah lateks cair pekat dengan penambahan logam Optimization of biogas production from concentrated-latex effluent with addition of metals Irma KRESNAWATY; I SUSANTI; . SISWANTO; . TRI-PANJI
E-Journal Menara Perkebunan Vol 76, No 1: Juni 2008
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Summary The treatment of concentrated-latex effluent process applied in the field presently, has not obtain optimum additional benefits. Besides that, the technology using ponding system needs wide area and causes air pollution that such a way caused conflicts with society. The application concept of clean industry: reuse, reduction, recovery and recycling, makes the possibilities to convert the effluent to be usefull products. One of the alternative effluent process is by utilizing it as the source of renewable energy, that is in the form of biogas as an alternative energy. The preliminary research showed that the use of spontaneous latex skim coagulation, the addition of 1% manure as source of seed, and leaf biomass as the source of carbon could increase the biogas production. This research was carried out to optimize biogas production by adding metal ion and to observe the parameters which influenced every stage of biogas production. At the beginning of the process, pH showed increasing due to the hydrolysis process that generally occured in acid condition, but it remained stable (6.6-7.7) in the next steps, whereas, the VFA value as well as BOD value tended to increase. COD value had fluctuative inclination caused by the conversion of organic compounds to produce biogas and the hydrolysis process of leaf biomass to organic compounds that decom-posed to further biogas. The best result of biogas production was showed by addition of Fe3+ with optimum concentration 0.50 mg/L effluent.

Ekspresi β -1,3 glukanase dan kitinase pada tanaman kopi arabika (Coffea arabica L.) tahan dan rentan karat daun Expression of β-1,3 glucanase and chitinase of arabica coffee (Coffea arabica L.) resistant and susceptible against leaf rust disease Asmini BUDIANI; I SUSANTI; Surip MAWARDI; D A SANTOSO; . SISWANTO
E-Journal Menara Perkebunan Vol 72, No 2: Desember 2004
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Summary Leaf rust disease caused by Hemileia vastatrix is considered to be one of the most important diseases on arabica coffee plantation. In order to understand the mechanism underlying resistance of arabica coffee against leaf rust disease, this research was aimed to study expression of β-1,3 glucanase (GLU) and chitinase (CHI) genes in the arabica coffee S1934 and BLP10 that have been reported respectively as a resistant and susceptible varieties to H. vastatrix. The two varieties were essayed against H. vastatrix, and an RT-PCR (Reverse Transcriptase Polymerase Chain Reaction) using total RNAs from the S1934 and BLP10, both inoculated with H. vastatrix and uninnoculated was carried out for studying the expression of GLU and CHI. Two primer pairs were designed to amplify the conserved region of GLU and CHI. Amplification products were sequenced and the nucleotide sequences were subjected to BlastX analysis. The result of bioassay confirmed that arabica coffee S1934 was resistant to H. vastatrix, while BLP10 was susceptible. β-1,3 glucanase was expressed in all of the four samples, the inoculated and uninnoculated S1934, and BLP10 in different degree. S1934 expressed higher GLU compared to BLP10. In the inoculated S1934 the expression of this gene was higher compared to that of the uninoculated one. Expression of CHI was detected only in the S1934, both inoculated and uninoculated. Sequence analysis confirmed that the RT-PCR products were exon regions of genes encoding β-1,3 glucanase dan chitinase respectively. Both of the cDNA fragment have been cloned in E.coli. Ringkasan Karat daun yang disebabkan oleh jamur Hemileia vastatrix merupakan salah satu penyakit penting pada perkebunan kopi arabika. Untuk memahami mekanisme ketahanan kopi arabika terhadap karat daun, penelitian ini bertujuan untuk mempelajari ekspresi gen β-1,3 glukanase dan kitinase pada varietas kopi arabika S1934 yang dilaporkan tahan karat daun dan varietas BLP10 yang termasuk rentan karat daun. Untuk itu kedua varietas diuji kembali ketahanannya terhadap H. vastatrix melalui bioesai dan dilakukan RT-PCR menggunakan RNA total dari S1934 dan BLP10, baik yang diinokulasi dengan H. vastatrix maupun yang tidak diinokulasi, untuk mempelajari ekspresi gen GLU dan CHI. Dua pasang primer spesifik dirancang untuk mengamplifikasi daerah konservatif kedua gen tersebut. Hasil amplifikasi disekuen dan dianalisis menggunakan program BlastX. Hasil bioesai mengkonfirmasi bahwa S1934 tahan terhadap H. vastatrix, sedangkan BLP10 rentan. β-1,3 glukanase diekspresikan pada kedua varietas, baik yang diinokulasi maupun yang tidak diinokulasi, namun dengan tingkat ekspresi yang sedikit berbeda. Varietas S1934 mengekspresikan β-1,3 glukanase lebih tinggi dibandingkan dengan BLP10. Ekspresi gen tersebut pada S1934 yang diinokulasi lebih tinggi dibandingkan dengan yang tidak diinokulasi. Sedangkan kitinase hanya diekspresikan pada varietas S1934. Hasil sekuensing dan analisis DNA mengkonfirmasi bahwa sekuen hasil RT-PCR merupakan bagian ekson dari gen penyandi β-1,3 glukanase dan kitinase. Kedua fragmen tersebut telah diklon pada E. coli.

Optimisasi produksi biogas dari limbah lateks cair pekat dengan penambahan logam Optimization of biogas production from concentrated-latex effluent with addition of metals Irma KRESNAWATY; I SUSANTI; . SISWANTO; . TRI-PANJI
Menara Perkebunan Vol. 76 No. 1: 76 (1), 2008
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v76i1.92

Summary The treatment of concentrated-latex effluent process applied in the field presently, has not obtain optimum additional benefits. Besides that, the technology using ponding system needs wide area and causes air pollution that such a way caused conflicts with society. The application concept of clean industry: reuse, reduction, recovery and recycling, makes the possibilities to convert the effluent to be usefull products. One of the alternative effluent process is by utilizing it as the source of renewable energy, that is in the form of biogas as an alternative energy. The preliminary research showed that the use of spontaneous latex skim coagulation, the addition of 1% manure as source of seed, and leaf biomass as the source of carbon could increase the biogas production. This research was carried out to optimize biogas production by adding metal ion and to observe the parameters which influenced every stage of biogas production. At the beginning of the process, pH showed increasing due to the hydrolysis process that generally occured in acid condition, but it remained stable (6.6-7.7) in the next steps, whereas, the VFA value as well as BOD value tended to increase. COD value had fluctuative inclination caused by the conversion of organic compounds to produce biogas and the hydrolysis process of leaf biomass to organic compounds that decom-posed to further biogas. The best result of biogas production was showed by addition of Fe3+ with optimum concentration 0.50 mg/L effluent.

Ekspresi β -1,3 glukanase dan kitinase pada tanaman kopi arabika (Coffea arabica L.) tahan dan rentan karat daun Expression of β-1,3 glucanase and chitinase of arabica coffee (Coffea arabica L.) resistant and susceptible against leaf rust disease Asmini BUDIANI; I SUSANTI; Surip MAWARDI; D A SANTOSO; . SISWANTO
Menara Perkebunan Vol. 72 No. 2: 72 (2), 2004
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v72i2.122

Summary Leaf rust disease caused by Hemileia vastatrix is considered to be one of the most important diseases on arabica coffee plantation. In order to understand the mechanism underlying resistance of arabica coffee against leaf rust disease, this research was aimed to study expression of β-1,3 glucanase (GLU) and chitinase (CHI) genes in the arabica coffee S1934 and BLP10 that have been reported respectively as a resistant and susceptible varieties to H. vastatrix. The two varieties were essayed against H. vastatrix, and an RT-PCR (Reverse Transcriptase Polymerase Chain Reaction) using total RNAs from the S1934 and BLP10, both inoculated with H. vastatrix and uninnoculated was carried out for studying the expression of GLU and CHI. Two primer pairs were designed to amplify the conserved region of GLU and CHI. Amplification products were sequenced and the nucleotide sequences were subjected to BlastX analysis. The result of bioassay confirmed that arabica coffee S1934 was resistant to H. vastatrix, while BLP10 was susceptible. β-1,3 glucanase was expressed in all of the four samples, the inoculated and uninnoculated S1934, and BLP10 in different degree. S1934 expressed higher GLU compared to BLP10. In the inoculated S1934 the expression of this gene was higher compared to that of the uninoculated one. Expression of CHI was detected only in the S1934, both inoculated and uninoculated. Sequence analysis confirmed that the RT-PCR products were exon regions of genes encoding β-1,3 glucanase dan chitinase respectively. Both of the cDNA fragment have been cloned in E.coli. Ringkasan Karat daun yang disebabkan oleh jamur Hemileia vastatrix merupakan salah satu penyakit penting pada perkebunan kopi arabika. Untuk memahami mekanisme ketahanan kopi arabika terhadap karat daun, penelitian ini bertujuan untuk mempelajari ekspresi gen β-1,3 glukanase dan kitinase pada varietas kopi arabika S1934 yang dilaporkan tahan karat daun dan varietas BLP10 yang termasuk rentan karat daun. Untuk itu kedua varietas diuji kembali ketahanannya terhadap H. vastatrix melalui bioesai dan dilakukan RT-PCR menggunakan RNA total dari S1934 dan BLP10, baik yang diinokulasi dengan H. vastatrix maupun yang tidak diinokulasi, untuk mempelajari ekspresi gen GLU dan CHI. Dua pasang primer spesifik dirancang untuk mengamplifikasi daerah konservatif kedua gen tersebut. Hasil amplifikasi disekuen dan dianalisis menggunakan program BlastX. Hasil bioesai mengkonfirmasi bahwa S1934 tahan terhadap H. vastatrix, sedangkan BLP10 rentan. β-1,3 glukanase diekspresikan pada kedua varietas, baik yang diinokulasi maupun yang tidak diinokulasi, namun dengan tingkat ekspresi yang sedikit berbeda. Varietas S1934 mengekspresikan β-1,3 glukanase lebih tinggi dibandingkan dengan BLP10. Ekspresi gen tersebut pada S1934 yang diinokulasi lebih tinggi dibandingkan dengan yang tidak diinokulasi. Sedangkan kitinase hanya diekspresikan pada varietas S1934. Hasil sekuensing dan analisis DNA mengkonfirmasi bahwa sekuen hasil RT-PCR merupakan bagian ekson dari gen penyandi β-1,3 glukanase dan kitinase. Kedua fragmen tersebut telah diklon pada E. coli.

Title

Found 4 Documents
Search

Abstract

Abstract

Abstract

Abstract

Title Search

Found 4 Documents Search

Abstract

Abstract

Abstract

Abstract

Title

Found 4 Documents
Search