Article Per Year (5 Year)
p-Index From 2020 - 2025
0
P-Index
This Author published in this journals
All Journal Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy) BIOTROPIA - The Southeast Asian Journal of Tropical Biology Menara Perkebunan
NURITA TORUAN-MATHIUS
Department of Biotechnology, Plant Production and Biotechnology Division, PT SMART Tbk., Bogor
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Economics, Econometrics & Finance Immunology & microbiology Veterinary

Published : 32 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 32 Documents
Search

 1   2   3   4 
Karakterisasi Morfologi Bunga dan Buah Abnormal Kelapa Sawit (Elaeis guineensis Jacq) Hasil Kultur Jaringan Helen Hetharie; Gustav A. Wattimena; Maggy Thenawidjaya S.; Hajrial Aswidinnoor; Nurita Toruan-Mathius; Gale Ginting
Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy) Vol. 35 No. 1 (2007): Jurnal Agronomi Indonesia
Publisher : Indonesia Society of Agronomy (PERAGI) and Department of Agronomy and Horticulture, Faculty of Agriculture, IPB University, Bogor, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (665.766 KB) | DOI: 10.24831/jai.v35i1.1310

Abstract

Tissue culture-derived plants of oil palm (Elaeis guineensis Jacq) can produce abnormal female dan male flowers, especially female, which develop into mantled fruit. This abnormality have caused yield lost up to 40%. The objectives of this research were to study the stages of flower development in which the abnormality started to appear, to characterize the morphology of the abnormal flower and fruit, and to determine the degree of abnormality. Plant materials used in this research were MK152, MK 176, MK 203, MK163, MK104, MK 212 and MK 209 clones obtained from the collection of "Badan Pengkajian dan Penerapan Teknologi (BPPT)" in Ciampea, Bogor. Characterization of abnormality at the flowering stage was conducted  based on morphological performance at several stages of flower development, while the degree of abnormality at fruiting stage was determined based on the condition of carpel, mesocarp and seed. Normal flower and fruit of the same clone were used as the control. The results showed that the abnormality started at primordial stage of flower organ formation. Supplement carpel was found surrounding gynoecium for the abnormal female flower, which was composed of three to six carpels present at  separate whorl of flower. Abnormal male  flower had no additional whorl of  flower, instead stamens were converted into carpel-like structures. In this case, number of carpels structure depends on the degree of abnormality. There were three levels of abnormality, i.e. light abnormality (AbR), heavy abnormality (AbB) and severe abnormality (AbSB). The severe abnormal fruit was seedless, with soft mesocarp (AbSB1) and woody mesocarp (AbSB2).   Key words : oil palm, mantled fruit, supplement carpel, flower whorl, tissue culture
AN SNP MARKER POTENTIALLY LINKED TO SOMATIC EMBRYOGENESIS OF OIL PALM (Elaeis guineensis) Irang Wahyunanto; Diana E Waturangi; Nurita Toruan-Mathius; Adi Yulandi
BIOTROPIA - The Southeast Asian Journal of Tropical Biology Vol. 24 No. 2 (2017)
Publisher : SEAMEO BIOTROP

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11598/btb.2017.24.2.678

Abstract

Oil palm (Elaeis guineensis) is one of the most important oil-bearing crop in the world. This crop can be vegetatively propagated only using tissue culture technique. Oil palm tissue culture technique has low efficiency, with callogenesis and embryogenesis stages as the limiting factors. Genetic factor has a major role in determining the success rate of these two stages. The use of molecular markers which represent the rate of embryogenesis or callogenesis has the potential to improve the efficiency of oil palm tissue culture process. In this study, SNP mining was conducted on embryogenesis transcriptome data, oil palm cDNA database, oil palm genome database, and oil palm SNPs marker database in NCBI.  The objective of this study was  to obtain SNP marker which represents the embryogenesis potential, to be further used in marker assisted selection of oil palm ortets. One SNP (EMB6) showed significant association with embryogenesis rate. This SNP was found in one of Auxin Response Factor (ARF) family gene. Nucleotide replacement from Adenine to Guanine changed the 307th amino acid from Isoleucine to Methionine. Oil palms with Adenine homozygote (A/A) pattern on the EMB6 showed 8-fold higher chance to produce significantly higher embryogenesis rate than Adenine-Guanine heterozygote (A/G).
Teknik sambung mikro in vitro kina Cinchona succirubra dengan C. ledgeriana In vitro micrografting technique of Chincona succirubra and C. ledgeriana Nurita TORUAN-MATHIUS; . LUKMAN; . AGUS-PURWITO
E-Journal Menara Perkebunan Vol 74, No 2: Desember 2006
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1659.342 KB) | DOI: 10.22302/iribb.jur.mp.v74i2.103

Abstract

Summary In vitro micrografting is a technique for grafting scions to rootstocks of plantlets from tissue culture. In vitro micrografting of Cinchona plant has never been carried out. The objective of this research was to obtain the best method of in vitro micrografting, medium for micrografted plantlets, and acclimatization  for Cinchona plantlets from  micrografting. The research consisted of (i) optimization of micrografting method, (ii) optimization of medium for growing plantlets, and (iii) acclimatization of micrografted plantlet. Plantlets of four-month-old of  C. ledgeriana  QRC clone were used as  scions, while of C. succirubra as  rootstocks. Each of experiments was arranged according to Completely Randomized Design, consisted of  combination of scion and rootstock and type of micro-grafting with 10 replicates. Parameters measured were  the percentage of survived plantlet, leaf number, and callus productions on union area, and percentage of survived  plantlet. The results show that V type of micrografting was the best for Cinchona micrografting. MS medium with the addition of 3 mg/L IBA was the best medium for growing of micrografted plantlet. Husk charcoal mixed with top soil (1 : 1) was the best medium for acclimatization.  Acclimatization  consisted  of two steps: preaclimatization in a culture room with 12- hour photoperiod at temperature 25 – 27oC  for two weeks,  followed by aclimatization in a plastic house with  70% reduced light intensity for one month. Using this method, 90% of the seedlings were survived. It is concluded that in vitro micrografting can be used as a technique for clonal propagation of Cinchona sp.Ringkasan  Teknik sambung mikro (mikrografting) in vitro adalah teknik penyambungan potongan batang atas pada batang bawah dalam kultur jaringan.  Pada tanaman kina teknik sambung mikro  in vitro belum pernah dilakukan. Tujuan penelitian ini adalah  menetapkan tipe sambung mikro, medium terbaik untuk planlet hasil sambung  mikro, dan perbanyakan tanaman kina dengan sambung mikro. Pelaksanaan percobaan meliputi (i) optimasi tipe sambung, (ii) optimasi  medium, dan (iii) aklimatisasi planlet hasil sambung mikro. Bahan tanaman yang digunakan sebagai batang atas adalah planlet Cinchona ledgeriana klon QRC, sedangkan sebagai batang bawah digunakan planlet  C. succirubra, berumur empat bulan. Masing- masing percobaan disusun dengan Rancangan Acak Lengkap terdiri dari dua taraf yaitu  kombinasi batang bawah dengan batang atas bentuk sambung tipe V dan L dilakukan  dengan 10 ulangan. Peubah yang diukur meliputi persentase planlet yang bertahan hidup,  jumlah daun,  berkalus atau tidak berkalus pada daerah pertautan, dan persentase planlet yang bertahan hidup. Hasil yang diperoleh menunjukkan bahwa tipe V merupakan cara sambung  mikro  yang terbaik. Medium MS dengan penambahan 3 mg/L IBA adalah medium terbaik untuk pertumbuhan dan perakaran planlet hasil sambung mikro.  Aklimatisasi planlet dilakukan dengan medium tumbuh arang sekam : top soil (1 : 1) yang disterilkan. Tahapan aklimatisasi adalah pre-aklimatisasi dalam ruang kultur  suhu 25 -     27 oCdengan pencahayaan 12 jam per hari dan diikuti dengan aklimatisasi di rumah plastik bernaungan 70% paranet. Dengan metode aklimatisasi ini  90% dari bibit mampu bertahan hidup. Kesimpulan dari penelitian ini menunjukkan bahwa teknik sambung mikro dapat digunakan untuk perbanyakan klonal   Cinchona sp..
Analisis genotip normal dan abnormal pada klon kelapa sawit (Elaeis guineensis Jacq.) dengan Amplified Fragment Length Polymorphism (AFLP) Analysis normal and abnormal genotypes of oil palm clones (Elaeis guineensis Jacq.) by Amplified Fragment Length Polymorphism (AFLP) Nurita TORUAN-MATHIUS; . ENDANG-YUNIASTUTI; Ridwan SETIAMIHARJA; Murdaningsih H. KARMANA
E-Journal Menara Perkebunan Vol 73, No 1: Juni 2005
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1218.086 KB) | DOI: 10.22302/iribb.jur.mp.v73i1.159

Abstract

SummaryTissue culture-derived plants of oil palmmay develop abnormal flowers in whichprimordial stamens are converted into carpel-liketissue or mantled fruits, and sterile male flowers.This abnormality can be heritable, individualpalm may show variation in mantling andreversion to the normal phenotype over time hasbeen observed. The aim of these experiments wasto analyze the differences between normal andabnormal genotypes by DNA-AFLP. DNA wasisolated from young fruits of three clones,MK152, MK209, and MK 212 each of themconsisted of normal fruits, abnormal fruits andsterile male flowers. The research consisted of (i)selection of AFLP primer which can producepolymorphic bands, (ii) genetic similaritiesanalysis, UPGMA, principal component analysisand specific DNA bands between normal orabnormal genotypes. For primers selection, 20AFLP primers with DNA from MK 152 normaland abnormal genotypes were used. The selectedprimers were then used to amplify DNA of ninegenotypes. The results show that 10 primer com-binations EcoRI/MseI produced polymorphicbands. Each primer from 10 primer producedonly one or two DNA bands indicates that thedifferences between normal and abnormalgenotypes in the same clone. However, nopolymorphism was consistently found betweennormal and abnormal clones in all the sets.Genetic similarity analysis shows that betweengenotype had high genetic similarities, around92-99%. The results of UPGMA found thedifferent clustering between normal fruit,abnormal male and abnormal fruits. The resultsshow same as clustering based on first, secondand third component. This suggest that, whilstAFLP method is an effective way of detectingvariation in tissue culture-derived plants,different approaches are required to identify thecasual basis of the mantled fruit abnormality.RingkasanTanaman kelapa sawit yang dihasilkan darikultur jaringan, umumnya dalam perkembangan-nya akan memiliki organ reproduktif yangabnormal. Abnormalitas berupa primordialstamen berkembang menjadi bentuk jaringanseperti karpel, buah mantel, atau bunga jantanmandul. Penelitian ini bertujuan untukmendapatkan pembeda DNA-AFLP antaragenotip normal dan abnormal pada klon-klonkelapa sawit. DNA diisolasi dari buah muda klonMK 152, MK 209, dan MK 212 yang masing-masing terdiri atas genotip normal, berbuahabnormal, dan berbunga jantan steril. Percobaanmencakup (i) seleksi primer AFLP yang mampumenghasilkan pita yang polimorfis, (ii) analisiskemiripan genetik, UPGMA, komponen utamadan pita pembeda antar genotip normal danabnormal. Seleksi primer dilakukan terhadap 20primer AFLP menggunakan DNA dari genotipMK 152 yang normal dan abnormal. Selanjutnyaprimer terpilih digunakan untuk mengamplifikasiDNA dari kesembilan genotip yang diuji. Hasilyang diperoleh menunjukkan bahwa 10 kombi-nasi primer EcoRI/MseI mampu menghasilkanpita yang polimorfis. Dari 10 primer yang diuji,masing-masing hanya menghasilkan satu ataudua pita DNA yang mampu membedakan genotipnormal dan abnormal dalam klon yang sama.Namun, tidak ada pita DNA spesifik yangmampu membedakan genotip normal denganabnormal untuk seluruh klon yang diuji. Analisiskemiripan genetik menunjukkan bahwa antargenotip memiliki kemiripan genetik yang sangattinggi, yaitu 92-99%. Dari hasil UPGMAdiperoleh pengelompokan yang terpisah antargenotip normal, abnormal jantan dan buahabnormal. Hasil tersebut didukung olehpengelompokan berdasarkan komponen utamasatu, dua dan tiga. Dapat disimpulkan bahwa,teknik AFLP tidak efektif untuk mendeteksipembeda antar genotip tanaman yang diperolehdari kultur jaringan, pendekatan lainnyadiperlukan untuk mengidentifikasi abnormalitas.
Kemiripan genetik klon karet (Hevea brasiliensis Muell. Arg.) berdasarkan metode Amplified Fragment Length Polymorphisms (AFLP) Genetic similarity of rubber clones (Hevea brasiliensis Muell. Arg) based on Amplified Fragment Length Polymorphisms (AFLP) method . NURHAIMI-HARIS; Hajrial ASWIDINNOOR ASWIDINNOOR; Nurita TORUAN-MATHIUS; Agus PURWANTARA
E-Journal Menara Perkebunan Vol 71, No 1: Juni 2003
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (261.322 KB) | DOI: 10.22302/iribb.jur.mp.v71i1.180

Abstract

Summary   Genetic similarity among ten rubber clones originating from the Wickham collection was studied by Amplified Fragment Length Polymorphism (AFLP) markers.  These clones have different levels of resistance to Corynespora cassiicola, one of the major pathogens in rubber plantations.  The information resulted from this study will be used to determine resistant and susceptible clones which will be used in expression study of the genes encoding plant resistance to C. cassiicola.  Genetic similarity values of clones were calculated from all AFLP markers and used to produce a dendrogram using Unweight Pair-Group Method Arithmetic (UPGMA) based on Numerical Taxonomy and Multivariate System (NTSYS) version  1.8 pc.  A total of 481 fragments were detected by using ten pairs of selective AFLP primers, and 233 fragments (48,4 %) of them were polymorphic.  The results clearly demonstrated that genetic background of these ten clones were 85.5% similar.  At 88.0% similarity level, the clones could be divided into three clusters.  Genetic similarity of IRR 100 (resistant clone) with RRIC 103, PPN 2444 and IAN 873 (susceptible clones) was 90.5, 89.5 and 89.0% respectively, while genetic similarity of other three resistant clones (AVROS 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%.  The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity  will finally  be selected for the expression study of the genes.  Kemiripan genetik sepuluh klon karet yang berasal dari koleksi Wickham dipelajari dengan menggunakan marka Amplified Fragment Length Polymorphism (AFLP).  Kesepuluh klon tersebut memiliki tingkat resistensi berbeda terhadap Corynespora cassiicola, salah satu cendawan patogen penting pada daun tanaman karet. Informasi yang diperoleh dalam penelitian ini akan digunakan untuk menetapkan klon resisten dan klon rentan untuk digunakan dalam mempelajari ekspresi gen yang menyandikan ketahanan tanaman karet terhadap C. cassiicola.  Nilai kemiripan genetik kesepuluh klon karet dihitung berdasarkan semua marka AFLP yang diperoleh dan selanjutnya digunakan untuk. membuat dendrogram dengan menggunakan Unweight Pair-Group Method Arithmetic (UPGMA) berdasarkan Numerical Taxonomy and Multivariate System (NTSYS) version 1.8 pc.  Dengan menggunakan 10 pasang primer AFLP selektif diperoleh sebanyak 481 fragmen DNA, S 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%.  The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity  will finally  be selected for the expression study of the genes. 233 fragmen (48,4 %) di antaranya polimorfik    Dendrogram  dengan nyata menunjukkan bahwa 85,5% latar belakang genetik kesepuluh klon karet tersebut adalah sama, dan pada tingkat 88,0% kesepuluh klon terpisah dalam tiga kelompok.  Kemiripan genetik klon IRR 100 (resisten) dengan klon rentan RRIC 103, PPN 2444 dan IAN 873 masing-masing adalah 90,5, 89,5 dan 89,0%,  sedangkan kemiripan genetik tiga klon resisten lainnya (AVROS 2037, PR 255 dan BPM 1) dengan ketiga klon rentan yang sama adalah 88,0%.  Kemiripan genetik terendah (85,5%) terdapat antara klon RRIC 100 (resisten) dengan ketiga klon rentan tersebut.  Dengan mempertimbangkan distribusi penyebaran klon dan asal klon maka klon resisten AVROS 2037 dan klon rentan PPN 2444 yang memiliki kemiripan genetik 88,0% akan dipilih untuk digunakan dalam studi ekspresi gen tanaman karet. acerun:yes'>  Kesepuluh klon tersebut memiliki tingkat resistensi berbeda terhadap Corynespora cassiicola, salah satu cendawan patogen penting pada daun tanaman karet. Informasi yang diperoleh dalam penelitian ini akan digunakan untuk menetapkan klon resisten dan klon rentan untuk digunakan dalam mempelajari ekspresi gen yang menyandikan ketahanan tanaman karet terhadap C. cassiicola.  Nilai kemiripan genetik kesepuluh klon karet dihitung berdasarkan semua marka AFLP yang diperoleh dan selanjutnya digunakan untuk. membuat dendrogram dengan menggunakan Unweight Pair-Group Method Arithmetic (UPGMA) berdasarkan Numerical Taxonomy and Multivariate System(NTSYS) version 1.8 pc.  Dengan menggunakan 10 pasang primer AFLP selektif diperoleh sebanyak 481 fragmen DNA, S 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%.  The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity  will finally  be selected for the expression study of the genes.   
Respons tanaman kelapa sawit (Elaeis guineensis Jacq) terhadap cekaman kekeringan Respons of oil palm (Elaeis guineensis Jacq) to water stress Nurita TORUAN-MATHIUS; Gede WIJANA; Edi GUHARJA; Hajrial ASWIDINNOOR; Sudirman YAHYA; . SUBRONTO
E-Journal Menara Perkebunan Vol 69, No 2: Desember 2001
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (311.455 KB) | DOI: 10.22302/iribb.jur.mp.v69i2.166

Abstract

SummaryWater stress affect many physiological andbiochemical processes of oil palm. A series ofexperiments were conducted to characterize thewater stress-induced changes in physiologicalrespons of oil palm to water stress, in glass housecondition. The experiment consisted of (1)permanent leaf wilting point measured based onsoil water content, leaf water content, specificleaf area and leaf water potential . Plants wereconducted by termination of watering to theplants, and control plants were maintained wellwatered during 0,3,6,9,12,15,18 and 21 days ofMK356 and MK365 clones. Experiment (2)effect of water stress on changes of leaf waterpotential, protein bands pattern, proline,glycine-betaine, osmotical sugar, and abcisicacid (ABA) of MK356 and MK365 clones.Water stress was induced by termination ofwatering to the plants and maintained wellwatered during 0, 7,14, and 18 days.Experiment (3) changes of protein bands patternby total protein and electrophoresis SDS-PAGEand SDS-PAGE 2D protein. of H2(D10DxD8D)x(L9TxL2T); H12 (D8D Self) x(L9T x L2T). H3 and H9 (BJ028D x BJ2117P)hybrids. H2 and H12, H3 and H9 potentiallytolerant and untolerant to water stress,respectively. The results showed that permanentwilting point reached in 18 days of water stress.Water stress caused the decreased soil watercontent, leaf water potential, leaf water content,relative leaf water content , and relative leafarea of two clones. Water potential, leaf watecontent dan relative leaf water content ofMK365 decrease faster compare with MK356.Soil water content sharply decrease after 6 hoursand in 18 days of water stress leaf waterpotential value < - 2.55 Mpa. Proline, glycine-betaine and glucose content were affect by waterstress. Interaction among water stress and cloneswere significantly appear in stachiose content.Leaf water potential values decrease, whereasproline, ABA and glycine-betaine contentsincrease during water stress especially inMK356. Generally showed that ABA content inMK356 higher than MK 365. The differencesresponses of MK356 with MK 365 obtained fromprolin,xylose and ABA content. Induction of newprotein pI 4.7-36 kDa, pI5.3-34 kDa, pI 4.6-32kDa and pI 5.3-36 kDa obtained from hybridspotentially tolerant to water strees, none inuntolerant hybrids.RingkasanCekaman kekeringan mempengaruhiproses fisiologis dan biokimia tanaman kelapasawit. Serangkaian percobaan bertujuan untukmengkarakterisasi perubahan fisiologis tanamankelapa sawit terhadap cekaman kekeringan,dalam kondisi rumah kaca telah dilakukan.Percobaan terdiri atas (1) penetapan titik layupermanen, berdasarkan perubahan potensial airdaun, kadar air daun, kadar air daun relatif, danluas daun relatif dengan perlakuan tanpa dandengan penyiraman selama 0, 3, 6, 9, 12, 15, 18dan 21 hari. Percobaan (2) penetapan perubahankadar prolin, glisin-betain, gula-gula osmotikaldan asam absisik (ABA), terhadap cekamankekeringan. Perlakuan adalah tanpa dan denganpenyiraman selama 0, 7, 14, dan 18 hari.Percobaan (3) analisis perubahan pola pita proteindaun hibrida H2 (D10DxD8D)x(L9TxL2T); H12(D8D Self) x (L9T x L2T). H3 dan H9 (BJ028Dx BJ2117P) terhadap cekaman kekeringan dengantotal protein, dan pola pita protein dengan SDSPAGE dan SDS-PAGE 2D. H2 dan H12 serta H3dan H9 masing-masing berpotensi toleran danpeka terhadap cekaman kekeringan. Hasil yangdiperoleh menunjukkan bahwa titik layupermanen dicapai pada hari ke 18 setelah dibericekaman kekeringan. Cekaman kekeringanmenurunkan kadar air tanah media tumbuh,potensial air daun, kadar air daun, kadar air daunrelatif, dan luas daun relatif untuk kedua klon.Potensial air daun, kadar air daun dan kadar airdaun relatif klon MK365 menurun lebih cepatdibandingkan dengan klon MK356. Kadar airtanah menurun tajam setelah 6 hari dibericekaman air dan potensial air daun mencapai<-2.55 MPa pada 18 hari setelah diberi cekaman.Cekaman kekeringan nyata berpengaruh terhadapkadar prolin, glisin betain dan glukosa. Interaksiantar lama cekaman kekeringan dan perbedaanklon diperoleh pada perubahan gula stahiosa.Tampak bahwa semakin menurun nilai potensialair daun menyebabkan kadar prolin semakinmeningkat. Hal yang sebaliknya terjadi terhadapkadar glisin-betain yang mengalami penurunanterutama untuk klon MK356. Kadar ABAMK356 dan MK365 meningkat sejalan dengansemakin lama diberi cekaman. Secara umumtampak bahwa kadar ABA pada MK356 lebihtinggi dibandingkan dengan MK 365. Perbedaanrespons klon MK356 dengan MK 365 terjadipada kadar prolin, gula silosa dan ABA.Hibridaberpotensi toleran memberikan respon terhadapcekaman kekeringan dengan menginduksi proteinbaru pI 4,7-36 kDa, pI5,3-34 kDa, pI 4,6-32 kDadan pI 5,3- 36 kDa, sedangkan pada hibridayang berpotensi peka protein tersebut tidakditemukan
Perbanyakan tanaman kina Cinchona ledgeriana Moens. dan C. succirubra Pavon melalui penggandaan tunas aksiler Propagation of cinchona plant Cinchona ledgeriana Moens. and C. succirubra Pavon through axillary buds multiplication . JOKO-SANTOSO; Nurita TORUAN-MATHIUS; U SASTRAPRAWIRA; G SURYATMANA; D SAODAH
E-Journal Menara Perkebunan Vol 72, No 1: Juni 2004
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (292.571 KB) | DOI: 10.22302/iribb.jur.mp.v72i1.125

Abstract

SummaryCinchona ledgeriana (Ledger) and C. succirubra (Succi) were industrial commodities which their barks of the trunk  contain alkaloid   used as raw materials in pharmaceutical, food, drug and beverages and chemical industries. The problem  faced in conventional plant propagation are. incompatibilities, high numbers of death caused by transportation, limited numbers and time consume in  plant materials  production. These problems may be  overcome by axillary buds multiplication.  The aim of the experiment were to find out propagation technology of Ledger and Succi by  tissue culture technique.  Experiments were conducted in three consecutive steps, viz the effect of (i) BAP on multiplication and growth of axillary’s bud of Ledger and Succi in vitro culture, (ii) IBA on root initiation and growth, (iii)  growth medium on the growth of plantlets in  acclimatization.The design of the experiments were Complete Randomized Design with 15 (i & ii) and four (iii) replications. The treatments were (i) 0,1,2,3,4, dan 5 mg/L BAP, (ii) 0.0; 0.5; 1.0; 1.5; 2.0; dan 2.5 mg/L IBA, and (iii) mixture of soil and rice husk charcoal (1:1), mixture of soil and compost (1:1),  mixture of soil, rice husk charcoal, and  compost  (1:1:1).  Parameters measured in the experiments were (i) the initiation of buds multiplication rate twice at axillary buds at subculture.  (ii) initiation  and  roots vigor. (iii) numbers of survived  plants and plants vigor. The explant source used derived from two-month old axillary buds cultured in Murashige and Skoog (MS) medium without growth regulator. Results of the experiment showed  that the best shoot multiplication of Ledger  and Succi  was obtained from the application of 3 mg/L BAP, with buds multipli-cation rate 7 buds/explant/month for Ledger, and 3-4 buds/explants/month for succi. The best root initation and root growth were found from the application of 2 mg/L IBA. The highest percentage of survived plantlets (100%) in acclimatization was obtained from mixture of soil and rice husk charcoal (1:1) medium.  Therefore it is  concluded that tissue culture technique could be used for planlet  mass propagation    of  elite C. Ledgeriana and C. Succirubra through axillary bud multiplication.Ringkasan Tanaman kina Cinchona ledgeriana (Ledger) dan C. succirubra (Succi)  merupakan tanaman industri yang mengandung alkaloid di dalam kulit batangnya dan berguna dalam bidang industri farmasi, makanan, minuman dan kimia. Kendala yang dihadapi dalam perbanyakan tanaman kina secara konvensional dengan sistem sambung  adalah inkompatibilitas,    kematian akibat pengangkutan cukup tinggi, jumlah bahan tanam yang diproduksi sangat terbatas dan waktu penyediaan yang cukup lama. Masalah tersebut dapat diatasi dengan menggunakan teknik kultur jaringan. Penelitian ini bertujuan untuk men-dapatkan teknologi perbanyakan tanaman kina Ledger dan Succi dengan teknik kultur jaringan. Penelitian terdiri atas (i) pengaruh BAP terhadap inisiasi dan penggandaan  tunas aksilar, (ii) pengaruh IBA terhadap inisiasi serta pertum-buhan akar planlet,   dan (iii) pengaruh beberapa medium terhadap pertumbuhan planlet dalam aklimatisasi. Percobaan menggunakan Rancangan Acak Lengkap, masing-masing diulang 15 (i & ii)  dan (iii) empat kali. Peubah yang diukur untuk percobaan (i) adalah waktu inisiasi tunas dan laju penggandaan tunas aksiler pada dua  kali  subkulur. (ii)  Waktu  inisiasi  dan vigor akar. (iii) Jumlah tanaman yang bertahan hidup setelah aklimatisasi, serta vigor tanaman. Sumber eksplan yang digunakan adalah tunas aksilar dari kecambah terpilih berumur dua bulan yang dikulturkan dalam medium Murashige dan Skoog tanpa zat pengatur tumbuh. Perlakuan untuk percobaan (i) adalah 0,0; 1,0; 2,0; 3,0; 4,0 dan  5,0 mg/L BAP, (ii) adalah 0,0; 0,5; 1,0; 1,5; 2,0; dan 2,5 mg/L IBA, sedang (iii) adalah medium tanam tanah, tanah : arang sekam (1:1),  tanah : kompos (1:1), tanah : arang sekam : kompos (1:1:1). Hasil yang diperoleh menunjukkan bahwa konsentrasi BAP terbaik untuk inisiasi dan penggandaan tunas tanaman kina Ledger dan Succi adalah 3 mg/L BAP, dengan laju penggandaan tujuh tunas/eksplan/bulan untuk Ledger dan 3-4 tunas/eksplan/bulan untuk Succi. Sedang untuk perakaran diperoleh dari medium MS dengan penambahan 2 mg/L IBA. Persentase tertinggi planlet (100%) yang mampu bertahan hidup pada aklimatisasi diperoleh dari medium campuran tanah : arang sekam (1:1). Berdasarkan hasil tersebut di atas dapat disimpulkan bahwa perbanyakan tanaman kina secara in vitro untuk menghasilkan bibit bermutu dapat dilakukan melalui teknik penggandaan tunas aksiler
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
E-Journal Menara Perkebunan Vol 72, No 2: Desember 2004
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (276.157 KB) | 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.
Physiological and biochemical changes in cocoa seed (Theobroma cacao L.) caused by desiccation Perubahan fisiologi dan biokimia benih kakao (Theobroma cacao L.) akibat desikasi Nurita TORUAN-MATHIUS; . RACHMAWATI-HASID; . NURHAIMI-HARIS; Tolhas HUTABARAT
E-Journal Menara Perkebunan Vol 68, No 1: Juni 2000
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (79.17 KB) | DOI: 10.22302/iribb.jur.mp.v68i1.135

Abstract

 Ringkasan Benih kakao tergolong rekalsitran, benihnya sensitif terhadap desikasi dan apabila disimpan pada kondisi yang menyebabkan kehilangan air, benih akan kehilangan viabilitasnya. Viabilitas benih kakao hanya dapat dipertahankan beberapa hari saja dalam keadaan terbuka pada suhu kamar. Hal ini merupakan kendala dalam penyimpanan dan pengiriman benih kakao. Tujuan penelitian ini adalah untuk menetapkan pengaruh desikasi terhadap karakter fisiologis dan biokimia benih kakao. Benih ICS 60 (kakao lindak) dan DR2 (kakao mulia) diletakkan dalam cawan Petri kemudian disimpan pada suhu 25oC dan Rh 55-75% selama empat hari. Percobaan dilakukan dengan rancang­an petak terpisah, petak utama adalah kandungan air awal dan kritikal. Sebagai anak petak adalah jenis kakao, masing-masing diulang empat kali. Peubah fisiologis yang diukur adalah viabilitas benih mencakup kandungan air benih, potensi tumbuh maksimum, daya berkecambah, kecepatan tumbuh, bobot kering kecambah normal, dan laju pertumbuhan kecambah normal. Di samping itu juga dilakukan pengamatan pola pita protein benih yang dianalisis dengan SDS-PAGE. Kandungan asam absisik (ABA) dan gula stahiosa, raftnosa, glukosa, fruktosa, arabinosa, silosa, serta sukrosa dalam benih yang ditetapkan dengan HPLC Integritas membran benih ditetapkan berdasarkan daya hantar listrik air perendaman benih yang diukur dengan konduktometer. Hasil yang diperoleh menunjukkan bahwa adanya interaksi yang nyata antara desikasi dengan seluruh tolok ukur fisiologis. Desikasi menyebabkan penurunan daya ber­kecambah, bobot kering dan laju pertumbuhan kecambah normal, potensi tumbuh maksimum dan kecepatan tumbuh. Sedang untuk, kandungan ABA, sukrosa, arabinosa dan rafinosa mengalami peningkatan. Di samping itu desikasi menyebabkan dibentuknya protein baru dengan BM 32,5; 47,0 dan 51,0 kDa (DR2); 47,0 dan 51,0 kD (ICS 60). Beberapa protein yang hilang oleh pengaruh desikasi yaitu dengan BM37, 0 (DR2), 19, 0 dan 37, 0 kD (ICS60). Benih ICS60 lebih tahan terhadap desikasi dibandingkan dengan benih DR2. Summary Seed of cocoa is recalcitrant and sensitive to desiccation. In open condition at room temperature, the viability of cocoa seed ultimately lost for several days. These characters are a problem for seed storage and delivery. The objectives of this study are to investigate the effect of desiccation on physi­ological and biochemical characters of cocoa seed. Seeds of ICS 60 (bulk cocoa) and DR2 (fine cocoa) were placed on Petri dishes and stored at 25oC, Rh 55-75% for four days (critical water content). The experiment was conducted with split plot analysis, (1) The main plot was the storage condition initial and critical seeds water content. (2) The sub plot was the variety of cocoa, with four replications of each treatment. The effect of desiccation on seeds viability was tested, based on seed water content, maximum growth potential, seed germination, germination rate, dry weight of normal seedling, and seedling growth rate. Besides, the changes of seed proteins band pattern were also analysed by SDS­PAGE. Abscisic acid, stachyose, raffnose, fructose, arabinose, xyllose, and sucrose seed content were determined by HPLC. The integrity of seed membrane based on the leakage of electrolytes from seeds was measured with a CM 100 multicell conductivity meter. The results showed that there is an interaction with highly significant correlation between desiccation and all of the physiological and biochemical parameters. Desiccation caused the decrease of seed germination, dry weight and growth rate'of normal seedling, maximum growth potential, and germination rate and while the leakage of electrolytes, ABA, sucrose, arabinose and raffinose increased. Besides, desiccation was also caused the formation of new proteins with MW 32.5, 47,0 and 51,0 kDa (DR2); 47,0 and 51,0 kD ICS 60) . On the other hand, several protein were disappeared i.e. MW 37,0 (DR2), 19,0 and 37,0 kD (ICS60). Seeds of ICS 60 are more tolerant to desiccation than seeds of DR2. 
Kultur akar rambut in vitro serta pemanfaatan kultur ganda untuk pertumbuhan dan perkembangan endomikoriza (Gigaspora sp. dan Acaulospora sp.) Hairy root culture in vitro and the application of dual culture for growth and development of endomycorrhiza ( Gigaspora sp. and Acaulospora sp.) Nurita TORUAN-MATHIUS; . SITI-CHALIMAH; . MUHADIONO; Latifah AZNAM; Said HARAN
E-Journal Menara Perkebunan Vol 75, No 1: Juni 2007
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1555.463 KB) | DOI: 10.22302/iribb.jur.mp.v75i1.151

Abstract

SummaryArbuscular mycorrhizal (AM) fungi areecologically important for most vascular plantsfor their growth and survival. AM fungi areobligate symbions, and conventionally propa-gated by pot culture with a certain host plants.This papers describes the establishment ofmonoxenic cultures of Gigaspora sp. andAcaulospora sp in association with excised RiT-DNA transformed carrot roots and tomatoin vitro plants. Spores of Gigaspora sp. andAcaulospora sp. was cultured in monoxenictomato, carrot and hairy root of carrot in vitrocultures. The objectives of these studies were toobtained dual culture ( axenic and hairy root)for germination, sporulation, and infection ofGigaspora sp. and Acaulospora sp. Theresearch consisted of (i) host plant selectionwith high compatibility for hairy rootformation, (ii) media selection for potato andcarrot hairy root culture, (iii) hairy root ofGranola potato and carrot in dual culture, and(iv) germination, sporulation, and infection ofGigaspora sp. and Acaulospora sp. in vitroculture. The results showed that hairy rootsinduction were obtained from Granola,Atlantik potato and carrot in MS, B5 andWhite media. Granola, Atlantik potato andcarrot hairy root grow well in MS and Whitemedium, respectively. In dual culture media(MM media) hairy root of carrot grow well, buthairy root of Granola potato were inhibited.Germination, sporulation of Gigaspora sp.and Acaulospora sp. and root infection byboth CMA could be maintained in dual culturewith host carrot, tomato plants and carrothairy root culture in MM mediaRingkasanCendawan Arbuskular Mikoriza (CMA)secara ekologi berperan penting untuk ke-langsungan hidup tanaman. CMA adalahsimbion obligat, dan secara konvensional di-perbanyak dengan kultur pot menggunakantanaman inang tertentu. Tulisan ini menjelas-kan kultur monoksenik Gigaspora sp. danAcaulospora sp. berasosiasi dengan kultur akarrambut tanaman wortel dan tomat yangdiinokulasi dengan Ri T-DNA. Spora dariGigaspora sp. dan Acaulospora sp. dikultur-kan secara monoksenik in vitro dengantanaman tomat, wortel dan kultur akar rambutwortel. Tujuan penelitian ini adalah untukmendapatkan kultur ganda (aksenik dan akarrambut) untuk perkecambahan, sporulasi, daninfeksi Gigaspora sp. dan Acaulospora sp.Penelitian terdiri atas (i) seleksi tanaman inangdengan tingkat kompatibilitas tinggi untukpembentukan akar rambut, (ii) seleksi mediumuntuk kultur akar rambut wortel, (iii) akarrambut kentang Granola dan kultur gandawortel, dan (iv) perkecambahan, sporulasi,serta infeksi Gigaspora sp. dan Acaulosporasp. dalam kultur in vitro. Hasil yang diperolehmenunjukkan bahwa induksi kultur akarrambut diperoleh dari kentang Granola,Atlantik dan wortel dalam medium MS, B5 danWhite. Akar rambut kentang Granola, Atlantikdan wortel tumbuh baik dalam medium MSdan White. Akar rambut kentang dapat tumbuhbaik dalam medium kultur ganda, yaitumedium MM. Sebaliknya pertumbuhan kulturakar rambut kentang dalam medium yang samamengalami hambatan. Perkecambahan, sporu-lasi Gigaspora sp. maupun Acaulospora sp..serta infeksi akar oleh kedua jenis CMA dapatdilakukan dalam kultur ganda dengan tanamaninang wortel, tanaman kentang serta dengankultur akar rambut wortel dalam medium MM.
Co-Authors . ADE-HERI . JOKO-SANTOSO . LUKMAN . MARIA-BINTANG . MUHADIONO . NURHAIMI-HARIS . RACHMAWATI-HASID . REFLINI . SITI-CHALIMAH . Soedarsono . SUBRONTO . TONY-LIWANG A PRIANGANI-ROSWIEM ADI YULANDI Agus PURWANTARA Agus Purwito Antonius Suwanto D SAODAH Diana E Waturangi Edi GUHARJA Endang Yuniastuti G A WATTIMENA G SURYATMANA G. Suryatmana Gale Ginting GEDE WIJANA Gustav A. Wattimena H DJAJASUKANTA HAJRIAL ASWIDINNOOR Helen Hetharie I GP WENTEN ASTIKA Irang Wahyunanto Joko Santoso Latifah AZNAM M IBRAHIM-DANUWIKARSA MAGGY T. SUHARTONO Maggy Thenawidjaya S. Maggy THENAWIDJAYA-SUHARTONO Murdaningsih H. Karmana Nesti F SIANIPAR Ridwan Setiamiharja Said HARAN Saro Ina Ita BANGUN Siti Zubaidah Sudirman Yahya Tolhas HUTABARAT U SASTRAPRAWIRA Z LALU