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INDONESIA
Menara Perkebunan
ISSN : 01259318     EISSN : 18583768     DOI : -
Core Subject : Agriculture,
Menara Perkebunan as a communication medium for research in estate crops published articles covering original research result on the pre- and post-harvest biotechnology of estate crops. The contents of the articles should be directed for solving the problems of production and/or processing of estate crops of smallholder, private plantations and state-owned estates, based on the three dedications of plantation. Analyses of innovative research methods and techniques in biotechnology, which are important for advancing agricultural research. Critical scientific reviews of research result in agricultural and estate biotechnology.
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Articles 541 Documents
Isolasi fragmen gen LIPASE dari kapang Absidia corymbifera, Rhizopus oryzae dan Rhizopus oligosporus Isolation of LIPASE gene fragment from Absidia corymbifera, Rhizopus oryzae and Rhizopus oligosporus fungi Riza A. PUTRANTO; Asmini BUDIANI
Menara Perkebunan Vol. 77 No. 1: 77 (1), 2009
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v77i1.112

Abstract

AbstractDiversification of oil palm products, suchas healthy oil, needs lipase sustainability as abiocatalist. Many attempts have beendeveloped to produce lipase, includingintensive exploration and screening of severalspecies of molds. Genetic engineering for overexpression of LIPASE gene in the selectedmold is considered to be the potentialapproach for efficient production of thisenzyme. This research was aimed to isolate theLIPASE gene fragment of Indonesianindigenous fungi, namely Absidia corymbifera,Rhizopus oryzae and R. oligosporus by meansof RT-PCR (Reverse Transcriptase PolymeraseChain Reaction) technique using heterologousprimers. The result showed that a cDNAfragment of 462 bp has been amplified andisolated from the three fungi with differentconcentration. The highest quantity was foundfrom A. corymbifera. The RT-PCR productsisolated from A. corymbifera was cloned,sequenced and analyzed for its homology to thesequence of LIPASE gene from other species.BLAST analysis showed that the DNA sequenceof the cloned RT-PCR product derived fromA. corymbifera was highly homologous withLIPASE gene from Rhizopus niveus.AbstraksDiversifikasi produk kelapa sawit, sepertiminyak sehat (healthy oil) memerlukanketersediaan lipase sebagai biokatalis. Berbagaiupaya untuk produksi lipase telah dikembang-kan, termasuk eksplorasi dan skrining terhadapbeberapa spesies kapang secara intensif.Rekayasa genetika untuk mengoverekspresi-kan gen LIPASE pada kapang hasil skriningtersebut dipandang merupakan satu pendekatanpotensial untuk produksi enzim ini secaraefisien. Penelitian ini bertujuan untukmengisolasi fragmen gen LIPASE dari tigakapang indigenous Indonesia, yaituA. corymbifera, R. oryzae dan R. oligosporus,menggunakan teknik RT-PCR (ReverseTranscriptase Polymerase Chain Reaction).Hasil penelitian menunjukkan bahwa fragmencDNA sepanjang 462 bp dari ketiga kapangtelah diisolasi, masing-masing dengankuantitas yang berbeda. Hasil tertinggidiperoleh dari kapang A. corymbifera. ProdukRT-PCR dari A. corymbifera diklon, disekuenkemudian dianalisis homologinya dengansekuen gen LIPASE dari spesies lain. AnalisisBLAST menunjukkan bahwa sekuen DNA dariproduk RT-PCR terklon yang berasal dariA. corymbifera memiliki homologi tinggidengan gen LIPASE dari Rhizopus niveus.
Produksi, isolasi dan karakterisasi superoksida dismutase dari Spirulina platensis yang dibiakkan dalam serum lateks Production, isolation, and characterization of superoxyde dismutase from Spirulina platensis cultured on latex serum . TRI-PANJI; . SUHARYANTO; Marini WIJAYANTI
Menara Perkebunan Vol. 77 No. 1: 77 (1), 2009
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v77i1.113

Abstract

AbstractSpirulina platensis is a blue-green microalgawhich is frequently used for food and feedsupplements and cosmetic active agent. Thismicroalga also produces a strong antioxidantnamely superoxide dismutase (SOD) used ascosmetic active agent for anti aging and anti freeradicals. SOD was isolated from S. platensis cellbiomass from local isolate grown on latex serumon semipilot (3.5 m 3 ) and pilot scale (40 m 3 )then dried with spray drying or sun drying andcharacterized. SOD was purified with sequentialtwo-stage sedimentation using ammoniumsulphate and fractionated in chromatographiccolumn containing Sephadex G 200. Thefractions were analysed to determine the activity,cofactor metal and amino acid composition of theantioxidant. The results showed thatsedimentation of SOD extract with 80%ammonium sulphate produced SOD with higheractivity compared to that of SOD fromcommercial S. platensis biomass. This SOD wassuccessfully isolated and purified. MetaloenzymeSOD was composed of subunits with molecularweight of 77.78; 71.74; and 19.2 kDa, whichcontained nine types of amino acids with tyrosineand lysine as the major amino acid components.Zn was the most predominant metal on SOD, thenfollowed by Fe and Mn. The main subunitcofactors consisted of Zn 72%, Fe 25%, Mn 2%,and Cu 1%, which were different from thesmall subunit that contained of Zn 55%, Mn 31%,Fe 14%, and Cu 4%. The stability of SOD wasachieved on pH 7.5 and temperature below 25 o C.AbstrakSpirulina platensis adalah mikroalga hijaubiru yang banyak digunakan sebagai suplemenpangan, pakan, dan bahan aktif kosmetika.Mikroalga ini juga menghasilkan antioksidankuat yaitu superoksida dismutase (SOD), yangmerupakan bahan aktif kosmetika anti penuaandini dan pencegah efek radikal bebas. SODdiisolasi dari biomassa sel S. platensis isolat lokalyang dibiakkan dalam serum lateks skalasemipilot (3,5 m 3 ) dan pilot (40 m 3 ) sertadikeringkan dengan cara pengeringan kabut(spray drying) atau penjemuran untuk kemudiandikarakterisasi. SOD dimurnikan dengan peng-endapan bertingkat menggunakan ammoniumsulfat dan dipisahkan dengan kolom kromatografiberisi Sephadex G 200. Hasil pemisahankemudian dianalisis untuk menentukan aktivitas,logam kofaktor serta komposisi asam amino antioksidan tersebut. Hasil penelitian menunjukkanbahwa pengendapan ekstrak SOD denganSOD lebih tinggi dari SOD asal biomassaS. platensis komersial. SOD tersebut telahberhasil diisolasi dan dimurnikan. MetaloenzimSOD tersusun atas subunit dengan BM 77,78;71,74; dan 19,2 kDa, yang mengandungsembilan jenis asam amino dengan tirosin danlisin sebagai komponen asam amino utama.Logam yang dominan pada SOD adalah Zn,disusul kemudian Fe dan Mn. Kofaktor sub unitbesar terdiri dari Zn 72%, Fe 25%, Mn 2%, danCu 1%, berbeda dengan sub unit kecil yangmengandung Zn 55%, Mn 31%, Fe 14%, dan Cu4%. Stabilitas SOD S. platensis dicapai pada pH7,5 dan suhu di bawah 25 o Cammonium sulfat 80% menghasilkan aktivitas
Perbanyakan in vitro tanaman kina (Cinchona ledgeriana Moens) melalui tunas aksiler dan apikal In vitro propagation of cinchona (Cinchona ledgeriana Moens) from axillary and apical buds Imron RIYADI; J. S. TAHARDI TAHARDI
Menara Perkebunan Vol. 77 No. 1: 77 (1), 2009
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v77i1.114

Abstract

AbstractThe use of the appropriate source of nodalbud explants in culture can increase theeffectiveness and efficiency of shootmultiplication. An experiment was conducted todetermine and compare the rate of in vitro shootmultiplication from apical and axillary budsin cinchona (Cinchona ledgeriana Moens) andtheir subsequent growth and development. Theplant material used was Cinchona ledgerianaoriginating from the Indonesian Tea andCinchona Research Institute, Gambung, WestJava. Explants were taken from apical andaxillary nodes from in vitro germinated seedlings.The cultures were incubated at 26 0 C and 60%relative humidity under a 14-h photoperiod withlight intensity of 30 µmol photon/m 2 /sec.provided by cool-white fluorescent tubes (TL40 W) for 4 - 8 weeks. The parameters observedwere shoot multiplication rate, shoot growth anddevelopment such as shoot length, leaf numberand rooting frequency. Apical and axillary nodesproduced shoots at different multiplication rateson Murashige-Skoog (MS) standard mediumcontaining 30 g/L sucrose and supplemented with1 – 5 mg/L BA in combination with 0.1 mg/L IBA.Furthermore, shoots or plantlets of cinchonagrew and developed on the same mediacontaining 5 – 10 mg/L IAA combined with0.5 mg/L IBA. The results showed that shootmultiplication rate was higher in axillary than inapical nodes. The highest multiplication rate inaxillary nodes was 24.6 shootlets with 3 mg/LBA treatment, whereas in apical nodes it was17.2 shootlets with 5 mg/L BA treatment for eightweeks. The highest rooting frequency ofcinchona plantlet was 90%, achieved with 5 mg/LIAA in combination with 0.5 mg/L IBA. Theplantlets were successfully acclimatized andtransplanted to the fieldAbstrakSumber eksplan berupa nodus/tunas padakultur in vitro umum digunakan untuk multi-plikasi tunas. Penelitian ini bertujuan untukmembandingkan tingkat multiplikasi antara tunasapikal dengan tunas aksiler tanaman kina Ledgersecara in vitro. Bahan tanaman yang digunakanadalah kina Ledger (Cinchona ledgeriana Moens)yang berasal dari Pusat Penelitian Teh dan Kina,Gambung, Jawa Barat. Eksplan berupa nodus/tunas apikal dan aksiler asal biji yang dikecam-bahkan secara in vitro. Kultur tersebut diinku-basikan dalam ruang terang pada intensitascahaya 30 μmol foton/m 2 /detik dengan periodepenyinaran 14 jam pada suhu 260 C dankelembaban relatif + 60% selama 4 – 8 minggu.Parameter yang diamati adalah perbandinganmultiplikasi tunas dan pertumbuhan tunas yangmeliputi rata-rata tinggi tunas, jumlah daun danfrekuensi pengakaran. Nodus apikal maupunaksiler menghasilkan tunas dengan tingkatMurashige-Skoog (MS) standar yang me-ngandung sukrosa30 g/L dan ditambahkan BA1 – 5 mg/L dikombinasikan IBA 0,1 mg/L.Selanjutnya tunas/planlet kina tersebut berhasiltumbuhdan berkembang pada medium sama yangdiberi IAA 5 – 10 mg/L dikombinasikan denganIBA 0,5 mg/L. Hasil penelitian menunjukkanbahwa tingkat multiplikasi tunas aksiler lebihtinggi dari pada tunas apikal. Multiplikasi tunasaksiler menghasilkan jumlah tunas rata-ratatertinggi sebesar 24,6 tunas per eksplan padaperlakuan BA 3 mg/L sedangkan multiplikasitunas apikal tertinggi sebesar 17,2 tunas pereksplan pada perlakuan BA 5 mg/L pada umurdelapan minggu. Frekuensi pengakaran planletkina tertinggi mencapai 90% pada perlakuan IAA10 mg/L yang dikombinasikan dengan IBA 0,5mg/L. Planlet yang dihasilkan telah berhasildiaklimatisasi dan dipindahkan ke tempatpersemaian lapang.
Kloning gen penyandi β-1,6-glukanase kapang secara cepat dengan teknik RT-PCR menggunakan primer spesifik Rapid cloning for gene encoding fungal β-1,6-glucanase by means of RT-PCR using specific primers Asmini BUDIANI; Riza A. PUTRANTO; Hayati MINARSIH; Niyyah FITRANTI; Djoko SANTOSO
Menara Perkebunan Vol. 77 No. 1: 77 (1), 2009
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v77i1.115

Abstract

AbstractProduction of bioethanol from biomass ofagricultural waste has been hindered with a highproduction cost because enzymes needed for theprocess has to be imported with relatively a highprice. Genetic engineering using its encodinggenes is able to produce those enzymes withlower cost. In this report we described a researchaimed to clone gene encoding β-1,6-glucanasefrom Trichoderma harzianum with a relativelyrapid and inexpensive method, by means of RT-PCR using gene specific primers. The primerswere designed based on the DNA sequence of thetarget gene from the same species of organismused in this research. RT-PCR using that primersresulted in DNA fragment with sizescorresponding to the predicted size of full lengthgene encoding β-1,6-glucanase, about 1300 bp.After a sequential experiments of cloning usingpGEM-T Easy vector, DNA sequencing andBlastN - BlastX analyses of the sequences, it wasproven that the isolated DNA was full length geneof β-1,6-glucanase. This was implied from thepercentage of Identity and E-value which were96% and 0.0 (< e-04) respectivety.AbstrakProduksi bioetanol dari biomassa limbahpertanian, terkendala oleh tingginya biayaproduksi karena enzim yang diperlukan untukproses tersebut masih harus diimpor denganharga yang relatif mahal. Melalui rekayasagenetika menggunakan gen-gen penyandinya,enzim-enzim tersebut dapat diproduksi denganbiaya yang lebih murah. Penelitian ini bertujuanuntuk mengklon gen penyandi β-1,6-glukanasedari Trichoderma harzianum secara cepat danekonomis, dengan RT-PCR menggunakan primerspesifik. Primer tersebut dirancang berdasarkansekuen DNA dari gen target asal spesiesorganisme yang sama dengan yang digunakandalam penelitian. RT-PCR dengan primertersebut menghasilkan fragmen DNA yangukurannya sesuai dengan gen lengkap penyandiβ-1,6-glukanase, yaitu sekitar 1300 bp. Setelahsecara berurutan diklon menggunakan vektorpGEM-T Easy, sekuensing urutan DNA dananalisis BlastN maupun BlastX dari sekuen yangdiperoleh, terbukti bahwa fragmen DNA tersebutadalah gen lengkap penyandi β-1,6-glukanase.Hal ini ditunjukkan oleh Nilai Kesamaan(Identity) dan E-Value yang masing-masingmencapai 96% dan 0.0.
Ekspresi fenotipe gen APETALA1 kakao (TcAP1) pada eksplan tembakau Phenotypic expression of cacao APETALA1 (TcAP1) in tobacco explant Tetty CHAIDAMSARI; . SAMANHUDI; Asmini BUDIANI; Roedhy POERWANTO; Djoko SANTOSO
Menara Perkebunan Vol. 74 No. 1: 74 (1), 2006
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v74i1.116

Abstract

Summary APETALA1 (AP1) is one of flowering identity genes that determines the formation of sepal and petal tissues. An AP1 homologue was cloned from cacao flowers by bio-techniques coupled with bio-informatics. Examination of phenotypic expression was conducted with transgenesis of the 35S-TcAP1 construct using leaf disk technique of tobacco leaf explants mediated by Agrobacterium tumefaciens. PCR specific to TcAP1 demonstrated that the technique is effective in introducing the 35S-TcAP1 construct into tobacco plant cells. RT-PCR with total RNA from the leaves of transgenic tobacco plantlets showed that expression levels of the TcAP1 events varied. The variation of the transcript levels was comparable to the morphological phenotype of the tobacco plantlets grown in vitro. The cultures expressing TcAP1 at moderate levels, have developed into intact plantlets and set up flowers in vitro.Ringkasan APETALA1 (AP1) diketahui merupakan salah satu gen identitas pembungaan yang mengendalikan terbentuknya jaringan sepal dan petal. Homolog AP1 telah diklon dari organ bunga kakao (TcAP1) dengan kombinasi bio-techniques dan bio-informatics. Pengujian ekspresi fenotipe TcAP1 dilakukan dengan transgenesis konstruk konstitutif 35S-TcAP1 menggunakan teknik leaf disk eksplan daun tembakau dan mediasi Agrobacterium tumefaciens. Pengujian PCR spesifik TcAP1 menunjukkan bahwa teknik tersebut cukup efektif dalam mengintroduksikan konstruk 35S-TcAP1 ke dalam sel tanaman tembakau. RT-PCR dari daun planlet tembakau trangenik membuktikan bahwa tingkat ekspresi TcAP1 tersebut bervariasi. Perbedaan level ekspresi TcAP1 ini memberikan pengaruh yang nampak sebanding terhadap perkembangan morfologis planlet tembakau in vitro.  Kultur yang mengekspresikan TcAP1 pada level sedang mampu beregenerasi menjadi planlet sempurna dan membentuk bunga in vitro.
Pengaruh elisitasi terhadap pertumbuhan dan produksi alkaloida kinolin dari akar rambut tanaman kina (Cinchona succirubra Pavon ex Klotzsch) Effect of elicitation on growth and alkaloid quinoline production in hairy root of cinchona plant (Cinchona succirubra Pavon ex Klotzsch) Nurita TORUAN-MATHIUS; . NURHAIMI-HARIS; Joko SANTOSO; . ADE-HERI
Menara Perkebunan Vol. 74 No. 1: 74 (1), 2006
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v74i1.117

Abstract

Summary Manipulation to increase alkaloid producti-vity in hairy root  can be done by elicitation with the addition of certain  enzymes. The objective of  this research is to find out the effect of elicitation by cellulase and pectyoliase enzymes on the productivity of Cinchona succirubra  hairy root culture. Hairy root was  cultured on ½ MS macro nutrient with the addition of 40 g/L sucrose and  7 g/L agar. Elicitation was done by the addition of cellulase and pectiolyase at the concentrations of 0; 0.05; 0.10; 0.50; 1.00; 3.00; 5.00; 10.00; 15.00; 20.00 and 25.00 mg/L, respectively.The effect of elicitation was  analyzed by fresh weight of hairy root, and alkaloid content in four-month-old culture.The result showed that the best growth was obtained by the addition of 15 mg/L cellulase, with fresh weight as much as  920 mg. The addition of 10 mg/L pectyoliase increased  hairy root fresh weight as much as  880 mg. The highest quinoline alkaloid production was obtained by the addition of 25 mg/L celluase (Quinine 580, quinidine 492, cinchonine 234, dihydroxyn-chonine 195 and cinchonidine 165 µg/g fresh weight) and 1 mg/L pectyoliase (Quinine 2363, quinidine 238, cinchonine 104, dihydroxyn-chonidine 138 and cinchonidine 1558 µg/g fresh weight).Ringkasan Manipulasi untuk meningkatkan produk-tivitas  akar rambut  dapat dilakukan di antaranya dengan elisitasi melalui penambahan enzim tertentu ke dalam medium. Tujuan penelitian ini adalah untuk menetapkan pengaruh elisitasi dengan penambahan selulase dan pektioliase terhadap produktivitas akar rambut tanaman Cinchona succirubra. Akar rambut tanaman Cinchona succirubradikulturkan dalam medium MS ½ hara makro dengan penambahan sukrose 40 g/L dan agar 7 g/L. Elisitasi dilakukan dengan penambahan selulase dan pektioliase  masing-masing pada konsentrasi 0; 0,05; 0,10; 0,50; 1,00; 3,00; 5,00; 10,00; 15,00; 20,00 dan 25,00 mg/L. Peubah yang diukur adalah bobot basah akar rambut dan kandungan alkaloida kinolin pada kultur berumur empat bulan. Hasil yang diperoleh menunjukkan bahwa pertumbuh-an terbaik terjadi pada  penambahan konsentrasi selulase 15 mg/L  dengan bobot basah 920 mg dan pektioliase  10 mg/L dengan bobot basah   880 mg. Produksi alkaloida kinolin tertinggi  diperoleh   pada   konsentrasi   selulase  25 mg/L (kinin 580, kinidin 492, sinkonin 234, dihidrok-sinkonin 195 dan sinkonidin 165 µg/g bobot basah) dan pektioliase 1 mg/L (kinin 2363, kinidin 238, sinkonin 104, dihidroksinkonin 138 dan sinkonidin 1558 µg/g bobot basah).   
Karakterisasi gen penyandi lipase dari kapang Rhizopus oryzae dan Absidia corymbifera Characterization of gene encoding lipase from fungus Rhizopus oryzae and Absidia corymbifera Riza A PUTRANTO; Djoko SANTOSO; . TRI-PANJI; . SUHARYANTO; Asmini BUDIANI
Menara Perkebunan Vol. 74 No. 1: 74 (1), 2006
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v74i1.118

Abstract

SummaryLipase is a group of enzymes which catalyze fat hydrolysis. Lipase is recently used to produce diacylglycerol (DAG) from triacylglycerol (TAG). Lipase  can be used to produce healthy oil. Having a rich biodiversity, Indonesia has the opportunity to produce lipase using indigenous microbes, such as molds. This research aimed to detect  LIPASE  gene on several strains of molds employing PCR technique. Genomic DNAs were isolated from four strains of molds (M. sitophila, R. oryzae, R. microsporus, and A. corymbifera). Heterologous primers for LIPASE  were designed based on the conserved region of 12 LIPASE  sequences accessed from GenBank and used to amplify the genomic DNA resulted in a 466 bp fragmen. BLAST analysis showed that the bands of DNAs have high homology with common lipase protein in several strains of  Rhizopus.Ringkasan Lipase merupakan kelompok enzim yang berfungsi sebagai biokatalis hidrolisis lemak. Lipase banyak digunakan untuk konversi triasilgliserol (TAG) menjadi diasilgliserol (DAG). Penggunaan lipase penting untuk produksi minyak sehat (healthy oil). Indonesia dengan keanekaragaman hayati tinggi berpeluang besar   mengembangkan   produksi   lipase   dari mikroba lokal, salah satunya adalah kapang. Deteksi gen merupakan langkah awal dalam upaya peningkatan produksi lipase melalui rekayasa genetika. DNA genomik empat galur kapang (M. sitophila, R. oryzae, R. microsporus, dan A. corymbifera) telah berhasil diisolasi. Sepasang primer heterologous telah berhasil dirancang berdasarkan daerah terkonservasi 12 sekuen gen LIPASE dari GenBank. Amplikon DNA yang diperoleh pada PCR menggunakan pasangan primer RLP memiliki panjang 466 bp. Analisis BLAST memperlihatkan bahwa amplikon PCR memiliki homologi yang tinggi dengan protein LIPASE  beberapa galur Rhizopus. 
Aktivitas ACCase mesokarp kelapa sawit dan kloning fragmen gen penyandi ACCase subunit biotin karboksilase ACCase activity of oil palm mesocarp and cloning of gene fragment encoding biotin carboxylase subunit of ACCase Asmini BUDIANI; Djoko SANTOSO; Hajrial ASWIDINNOOR; Antonius SUWANTO
Menara Perkebunan Vol. 74 No. 1: 74 (1), 2006
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v74i1.119

Abstract

Summary Genetic engineering to produce high yielding oil palm might be done by over expressing gene encoding key enzyme for oil biosynthesis in the oil palm mesocarp, one of which is ACCase. The objective of this research was to analyze ACCase activity of mesocarp from several developmental stages of fruit and to clone conserved region cDNA of gene encoding biotin carboxylase subunit of ACCase (BC-htACCase) from oil palm mesocarp. Activity of ACCase was analyzed by HPLC. Amplification of cDNA was done by means of reverse transcriptase polymerase chain reaction (RT-PCR) using degenerate heterologous primer on several annealing temperature and MgCl2 concentration. The cDNA fragment of RT-PCR product was cloned, sequenced and analyzed to confirm that the cloned cDNA was conserved region of BC-htACCase. The result showed that ACCase activity increased from the 14 week to the 20 week-old fruit, and then decreased. Using heterologous degenerate primers, cDNA fragments of BC-htACCase conserved region (469 bp) can be specifically amplified at 60 oC annealing temperature with 2 mM MgCl2 concentration.The result of BlastX analysis showed that the sequence of cloned cDNA fragment was highly homologous with the conserved region of BC-htACCase from Glycine max, Arabidopsis thaliana, Nicotiana tabacum,  and Brassica napus with 243, 237, 236, 231 bit score, and E. value 2e-63, 1e-61, 2e-61 and 5e-60, respectively. Ringkasan Rekayasa genetika untuk menghasilkan bibit kelapa sawit berdaya hasil tinggi dapat ditempuh dengan meningkatkan ekspresi gen penyandi enzim kunci biosintesis minyak pada kelapa sawit, salah satunya adalah ACCase. Tujuan penelitian ini adalah menguji aktivitas ACCase mesokarp beberapa tahap perkem-bangan buah sawit dan mengklon fragmen cDNA daerah konservatif gen penyandi ACCase heteromerik subunit biotin karbok-silase (BC-htACCase) dari mesokarp buah sawit. Aktivitas ACCase dianalisis dengan HPLC. Amplifikasi cDNA dilakukan dengan teknik RT-PCR menggunakan primer degene-rate heterologus pada berbagai suhu penempelan dan konsentrasi MgCl2. Fragmen cDNA hasil RT-PCR diklon, disekuen dan dianalisis untuk mengkonfirmasi bahwa cDNA terklon adalah daerah konservatif BC-htACCase. Hasil penelitian menunjukkan bahwa aktivitas ACCase meningkat dari buah berumur 14 minggu hingga buah berumur  20 minggu, kemudian menurun kembali Dengan primer degenerate heterologus, fragmen cDNA daerah konservatif BC-htACCase  (469 pb) dapat diamplifikasi secara spesifik pada suhu penempelan 60 oC dan konsentrasi MgCl2 2 mM. Hasil analisis BlastX dari sekuen DNA fragmen terklon menunjuk-kan bahwa sekuen tersebut mempunyai homologi tinggi antara lain dengan gen penyandi BC-htACCase dari Glycine max, Arabidopsis thaliana, Nicotiana tabacum dan Brassica napus, masing-masing dengan skor 243, 237, 236, 231 bit, dan E. value 2e-63, 1e-61, 2e-61 dan 5e-60.
Keragaman morfologi selama perkembangan embrio somatik sagu (Metroxylon sagu Rottb.) Morphological variations during the development of somatic embryos of sago (Metroxylon sagu Rottb.) Pauline Destinugrainy KASI; . SUMARYONO
Menara Perkebunan Vol. 74 No. 1: 74 (1), 2006
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v74i1.120

Abstract

Summary In vitro culture of sago (Metroxylon sagu Rottb.) on an agar-solidified medium consists of somatic embryos of different sizes, colors, and developmental stages.  One gram of mostly globular somatic embryos were cultured on a solid medium to observe their morphological variations with respect to embryo size, color, and developmental stage over one passage of six weeks culture.  The medium was a modified-MS medium with half-strength of macronutrients containing   0.01 mg/L ABA and 2 mg/L kinetin.  At the end of culture passage, fresh weight of embryo increased by 2.3 folds.  The embryo numbers increased by more than two times indicating the formation of secondary embryos.  The average size of sago somatic embryos did not change significantly over the culture period; however, the embryo size was already highly varied at the start and increased gradually as the embryo developed.  At the initial of culture,   33.7 % of the embryos were yellowish, 64.1 % were greenish, and 2.2% were reddish.  By the end of the culture the composition of yellowish embryos increased to 51.2 %, greenish embryo decreased to 42.5 % and red embryos increased to 6.3 %.  At the initial culture, 61 % of the embryos were at the globular, 9 % at heart-shape and 30 % at torpedo stage.  Generally globular embryos developed into later-stage embryos as the culture progressed, although almost 56% of the embryos remained at the globular stage after the sixth week.Ringkasan Kultur in vitro sagu (Metroxylon sagu Rottb.) pada medium padat terdiri dari embrio somatik dalam berbagai ukuran, warna, dan fase perkembangan.  Satu gram embrio somatik yang sebagian besar dalam fase globuler dikulturkan pada medium padat untuk mengamati keragaman morfologi embrio dalam hal ukuran, warna dan fase perkembangan dalam satu periode kultur enam minggu.  Medium kultur adalah MS modifikasi dengan setengah hara makro serta penambahan zat pengatur tumbuh ABA 0,01 mg/L dan kinetin 2 mg/L.  Pada akhir masa kultur bobot embrio segar meningkat 2,3 kali dibandingkan awal masa kultur.  Jumlah embrio juga mengalami peningkatan sebesar lebih dari dua kali yang menunjukkan adanya pembentukan embrio somatik sekunder. Ukuran rata-rata embrio tidak berubah secara signifikan selama masa kultur akan tetapi ukuran embrio telah sangat beragam pada awal kultur dan terus meningkat hingga akhir kultur. Warna embrio mengalami perubahan selama periode kultur.  Pada awal kultur dijumpai 33,7 % embrio berwarna kuning, 64,1 % embrio hijau, dan 2,2 % embrio merah.  Pada akhir kultur presentase embrio kuning meningkat menjadi 51,2 %, embrio hijau menjadi 42,5 %, dan embrio merah 6,3 %.  Pada awal kultur, dijumpai 61 % embrio pada fase globuler, 9 % fase bentuk-hati dan 30 % fase torpedo.  Umumnya embrio globuler berkembang menjadi embrio fase lanjut selama kultur berlangsung, namun 56 % embrio masih tetap dalam fase globuler pada minggu keenam.
Respons biokimia beberapa progeni kelapa sawit (Elaeis guineensis Jacq.) terhadap cekaman kekeringan pada kondisi lapang Biochemical responses of several oil palm (Elaeis guineensis Jacq.) progenies to drought stress in field condition Nurita TORUAN-MATHIUS; . TONY-LIWANG; M IBRAHIM-DANUWIKARSA; G. SURYATMANA; H DJAJASUKANTA; D SAODAH; I GP WENTEN ASTIKA
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.v72i2.121

Abstract

Summary        Oil palm have swallow roots, it caused the plant untolerant to drought  stress  and will decrease 10-40% bunch fresh weight in drought condition. Response of oil palm to drought stress in field conditions still unknown. The objective of these research  is to obtain  biochemical character  which has significant correlation with drought  tolerance, and to obtain tolerant progeny with high yield (fresh bunch weight) in drought condition.  The experiment were conducted in Riau (Kandista estate) and South Kalimantan  (Batu Mulia estate), with different of soil type and rainfalls. Observation were done in four times in different  month with different rainfalls. On each time of observation were analyzed  proline, glycine betaine, ornithine-δ-aminotransferase (δ-OAT) enzyme content, as biochemical variables and bunch weigth as yield variable response.  Eleven oil palm progenies 10-year-old grown in field divided with three block (as replication), each plot consisted of 16 plants. Data  were analyzed with Combined Experiment Analysis, Principal Component Analysis, Multiple Regression Analysis,  and Path Analysis. The results showed that eleven progenies gave different responses to drought stress in each variable, location and  time of observation. Most of progenies reponsive to two or three biochemical characters. Progeny 52 has no correlation with most of biochemical characters. Progeny 33 responsive with proline, while  progeny 85, 91 and  93 have high responsive to protein.  Proline, δ-OAT enzyme, and protein have high correlation with bunch weight.  Proline, and δ-OAT enzyme, categorized as biochemical characters of oil palm tolerance to drought stress. Progeny 33 more tolerance to drought stress compare with others progenies, and have highest productivity in Batu  Mulia estate. Ringkasan         Tanaman kelapa sawit memiliki perakaran yang dangkal sehingga mudah mengalami cekaman   kekeringan   yang dapat    menurunkan hasil TBS 10 - 40%. Respons tanaman kelapa  sawit terhadap cekaman kekeringan dalam kondisi lapang masih sangat sedikit sekali diketahui. Tujuan penelitian ini adalah untuk mendapatkan penciri biokimia yang berperan dalam sifat toleran tanaman terhadap cekaman kekeringan dan hubungan penciri biokimia dengan hasil tandan buah segar (TBS), serta menetapkan progeni yang toleran dan  ber-produksi tinggi pada lokasi yang tercekam. Percobaan dilakukan di dua lokasi perkebunan yang terletak di Riau (perkebunan Kandista) dan Kalimantan Selatan (perkebunan Batu Mulia) yang berbeda tipe tanah dan  curah hujannya. Pengamatan dilakukan pada empat waktu, pada bulan yang berbeda curah hujannya. Pada keempat waktu tersebut dianalisis kadar prolin, glisin-betain, enzim ornitin-δ-aminotransferase (δ-OAT), dan protein sebagai variabel respons biokimia serta hasil TBS sebagai variabel respons produktivitas tanaman kelapa sawit.  Tiap lokasi percobaan menggunakan rancangan kelompok lengkap teracak.  Tanaman kelapa sawit berumur 10 tahun sebanyak 11 progeni yang telah ada di lapangan, ditetapkan sebanyak tiga blok (sebagai ulangan).  Tiap plot percobaan berisi 16 tanaman.  Data yang diperoleh dianalisis dengan analisis statistika percobaan tergabung, analisis kom-ponen utama, regresi berganda dan analisis jalin. Hasil penelitian menunjukkan bahwa ada perbedaan respons 11 progeni kelapa sawit ter-hadap cekaman kekeringan pada masing-masing variabel respons dalam lokasi dan waktu pengamatan yang berbeda. Seluruh progeni responsif terhadap dua atau tiga penciri biokimia selama waktu penelitian berlangsung, kecuali progeni 52 tidak memiliki korelasi dengan seluruh penciri biokimia. Progeni 33 responsif terhadap prolin, sedang  progeni 85, progeni 91 dan progeni 93 cukup responsif terhadap protein. Prolin, enzim δ-OAT, dan protein berhubungan erat dengan hasil TBS. Prolin, enzim δ-OAT, dan protein dapat dikatagorikan sebagai penciri biokimia terhadap cekaman kekeringan  pada tanaman kelapa sawit. Progeni 33 lebih toleran terhadap cekaman kekeringan dibandingkan  dengan progeni lainnya dan produktivitasnya  tertinggi  di   perkebunan  Batu  Mulia.

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