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All Journal Agrotrop : Journal on Agriculture Science International Journal of Biosciences and Biotechnology Buletin Udayana Mengabdi E-Journal of Tourism INDONESIAN JOURNAL OF BIOMEDICAL SCIENCES Bumi Lestari E-Jurnal Agroekoteknologi Tropika (Journal of Tropical Agroecotechnology) Jurnal Master Pariwisata (JUMPA) Jurnal Biologi Tropis International Journal of Social Service and Research Berkala Penelitian Hayati AJARCDE (Asian Journal of Applied Research for Community Development and Empowerment) Nandur ARIMA : Jurnal Sosial Dan Humaniora Biosaintifika: Journal of Biology & Biology Education
I GEDE PUTU WIRAWAN
Program Studi Agroekoteknologi Pertanian Universitas Udayana
Agriculture, Biological Sciences & Forestry Arts Humanities Biochemistry, Genetics & Molecular Biology Decision Sciences, Operations Research & Management Earth & Planetary Sciences Economics, Econometrics & Finance Education Energy Environmental Science Immunology & microbiology Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Materials Science & Nanotechnology Medicine & Pharmacology Social Sciences

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MORPHOLOGICAL IDENTIFICATION OF BACTERIA ISOLATED FROM MUSHROOM BAGLOG AND ITS EFFECT ON SHIITAKE (Lentinula edodes (Berk.) Pegler) AND REISHI (Ganoderma lucidum (Curtis) P. Karst) MYCELIAL GROWTH Ni Kadek Emi Sintha Dewi; I Gede Putu Wirawan; Made Sritamin
International Journal of Biosciences and Biotechnology Vol 9 No 1 (2021): INTERNATIONAL JOURNAL OF BIOSCIENCES AND BIOTECHNOLOGY
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/IJBB.2021.v09.i01.p04

Abstract

Reishi (Ganoderma lucidum (Curtis) P. Karst) and shiitake (Lentinula edodes (Berk.) Pegler) mushrooms have high economic value and contain bioactive metabolites that provide heatlh benefits. Shiitake mushrooms have a delightfully unique taste as an edible mushroom. Mushroom production can be increased by utilizing microbes known as MGPB (Mushroom Growth Promoting Bacteria). This study aimed to determine the presence of bacteria associated with shiitake and reishi mushrooms in the baglog and determine how these bacteria influence the growth of shiitake and reishi mycelium. Bacteria was isolated from the mushroom baglog then were purified and centrifuged to obtain the cell-free extract. Furthermore, the bacterial cell-free extracts were poured on PDA media, then shiitake and reishi mycelium were inoculated to test the effect of bacteria isolates on fungal growth. The results showed that three isolates have the potential as MGPB in reishi mushroom, i.e., isolate S1C, S1D, and S2A. Reishi mycelium grown on isolate S2A achieved the fastest maximum growth on day 6th. In shiitake mushroom, it was seen that all isolates showed a negative effect on mycelium growth. Shiitake mycelium in isolate S1C, S1D, S2A, and S2B were seen to form a clear zone on PDA medium.
ANTIOXIDANT ACTIVITY OF THE TOPICAL PREPARATION OF BULUNG SANGU (Gracilaria spp) EXTRACT Maria Malida Vernandes Sasadara; I Gede Putu Wirawan; Made Sritamin; I Ketut Suada; Wayan Adiartayasa
International Journal of Biosciences and Biotechnology Vol 7 No 2 (2020)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (194.155 KB) | DOI: 10.24843/IJBB.2020.v07.i02.p04

Abstract

Bulung Sangu (Gracilaria spp) as many other macroalgae, is a source of beneficial phytochemical for health. Phytochemicals in macroalgae are widely used as active ingredients in cosmetic preparations. The study was aimed to determine the antioxidant properties of Bulung Sangu formulated in topical preparation. Bulung Sangu was macerated in ethanol 96% following by extract formulation in cream preparation in two concentrations: 5% and 10%. Antioxidant activity was determined against DPPH radical, compared to ascorbic acid. Percentage of reducing power in five concentration series (10, 20, 30, 40, and 50 µm/ml) statistical analyzes using one-way ANOVA with 95% of confidence level, following by IC50 measurement. Absorbance was read in wavelength of 517 nm. Concentration of 5% and 10% cream extract exhibited IC50 of 13,091 µg/ml and 11,867 µg/ml, respectively. These values are lower than IC50 of ascorbic acid (18,505 µg/ml), indicating the strong antioxidant properties of Bulung Sangu extract cream which is more potential than ascorbic acid. Bulung Sangu exhibit a potential source for being developed as medicine and cosmetics in topical preparation.
POTENTIAL EFFECT OF MACRO ALGA Caulerpa sp. AND Gracilaria sp. EXTRACT LOWERING MALONDIALDEHYDE LEVEL OF WISTAR RATS FED HIGH CHOLESTEROL DIET Ketut Srie Marhaeni Julyasih; I Gede Putu Wirawan
International Journal of Biosciences and Biotechnology Vol 5 No 1 (2017)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (177.696 KB) | DOI: 10.24843/IJBB.2017.v05.i01.p06

Abstract

Seaweed has potential nutrient content such as carotenoids, vitamins, fatty acids, carbohydrates, minerals, and other essential substances. Carotenoids have important biological functions as an antioxidant, and immunostimulatory which can prevent the disease, anti-inflammatory, anti-stress, anti-aging, and protect the skin from the harmful effects of ultraviolet radiation. Seaweed generally consumed as a vegetable by people in Bali, known as the local name Bulung Boni (Caulerpa spp.) and Bulung Sangu (Gracilaria spp.).. So far there has been no report or results of research on the effects of extract ethanol of Bulung Boni (Caulerpa sp.) and Bulung Sangu (Gracilaria sp.) as an antioxidant that can prevent lipid peroxidation which can be seen in decreased level of MDA in liver tissue or blood plasma. Therefore it is necessary to determine of plasmaMDA level of Wistar rat after fed high cholesterol diet treated with extract ethanol of Caulerpa sp. and Gracillaria sp. This experimental study used completely randomized design. Research using total of 24 Wistar rats divided into six sample groups of equal size, all fed with a diet high in cholesterol especially in negative control. The study consisted of negative control group (standard diet), positive control group (high cholesterol diet), high-cholesterol diet with Caulerpa sp. extract dose of 20 mg and 60 mg/100 g, high cholesterol diet with Gracilaria sp. extract dose of 20 mg and 60 mg/100 g body weight rat per day.The study resulted that rats fed high cholesterol diet with treated extract ethanol Caulerpa sp. and Gracilaria sp. with a dose of 20 mg and 60 mg per 100 g body weight rat / day had plasma MDA level significantly lower (p <0.05) compared with rats fed high cholesterol diet without treated with extract of Caulerpa sp. and Gracilaria sp.
CROP IMPROVEMENT THROUGH INDUCING MUTAGENESIS IN VIVO USING COLCHICINE ON COWPEA (Vigna unguiculata L. Walp) I Gede Ketut Susrama; I Gede Putu Wirawan
International Journal of Biosciences and Biotechnology Vol 4 No 2 (2017)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (394.566 KB) | DOI: 10.24843/IJBB.2017.v04.i02.p02

Abstract

Colchicine treatments of 0.005% and 0.01% either in distilled water or in hydrogen peroxide 3% were caused temporary leaf shape changes on cowpea. Treatment of colchicine in hydrogen peroxide 3% resulted in green pod color change to purple however treatment of just hydrogen peroxide 3% and colchicine in hydrogen peroxide 3% caused 8.8-10.7% dwarf cowpea. As a preliminary data, we also observed that cowpea crops grown from seeds treated with colchicine in distillate water attacked by bean leaf beetle much earlier compare to the treatment with colchicine in hydrogen peroxide 3%.
DISTRIBUTION OF CVPDr GENE AMONG SOME CITRUS PLANTS IN BALI I Gede Putu Wirawan
International Journal of Biosciences and Biotechnology Vol 3 No 2 (2016)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (207.783 KB)

Abstract

Citrus Vein Phloem Degeneration (CVPD) is the main disease of citrus plant caused by a Gram negativebacteria, Candidatus Liberobacter asiaticus. The disease is also called citrus greening disease or recentlycalled citrus huanglongbing. The CVPDr gene was firstly found in Triphacia trifoliata a citrus relativeplant which considered to be resistant to CVPD disease. The distribution of the gene among the citrusrelative plants in Bali were studied. The result of this study so far, CVPDr gene were found in theseedless lime (Citrus aurantiifolia) and Triphacia trifoliata which are known as a resistant or tolerant toCVPD disease, however, Citrus maxima, Citrus nobilis, Citrus reticulate, and Citrus amblycarpa are allsensitive plants but their harboring the CVPDr gene. This result indicated that CVPDr gene was not givea resistant to the disease in these plants. This results suggested that other/s gene is needed to give aresistant or tolerant in these plants.
IDENTIFICATION OF ARBUSCULAR MYCORRHIZAL FUNGI IN RHIZOSPHERE SOIL OF SEVERAL GRASS SPECIES AND CACAO (Theobroma cacao L.) BASED ON ITS SPORE MORPHOLOGICAL CHARACTERISTICS Ni Kadek Sintya Dewi; I Gede Ketut Susrama; Made Sritamin; Made Adnyana; I Gede Putu Wirawan
International Journal of Biosciences and Biotechnology Vol 2 No 1 (2014)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1384.094 KB)

Abstract

Arbuscular mycorrhizal fungi live in a symbiotic mutualism with plant roots and helps plant absorbnutrients and also able to live in various places. The study aimed to identify arbuscular mycorrhizal fungiin rizhosphere of several grass and cacao through microscopic method based on morphologicalcharacteristics and was conducted from December 2013 to March 2014. The methods used in this studywere spore isolation using wet sieving and root staining techniques. The results showed that arbuscularmycorrhizal fungi spores found in Imperata cylindrica L. were spores of Glomus (Glomales: Glomeaceae)with its vesicular and hyphae structure. The presence of spores and structures in Paspalum notatum wereAcaulospora (Glomales: Acaulosporaceae) and Gigaspora with its arbuscules, vesicules and hyphae structure.Spores and structures found in the Pennisetum purpureum were belong to genus of Glomus with hyphaeand arbuscular structure. Spores and structures of mycorrhizal fungi in Cyperus rotundus are spores of thegenus of Gigaspora (Glomales: Gigasporineae) and spores of Glomus with internal hyphae structure. Whilespores and mycorrhizal structures in Cacao were found two types of spore belong to genus of Glomus withhyphae and vesicular structures.
IN VIVO MULTISTEP MUTAGENESIS INDUCTION USING COLCHICINE ON COWPEA MUTANT 1 (Vigna unguiculata L. Walp) I Gede Ketut Susrama; I Gede Putu Wirawan
International Journal of Biosciences and Biotechnology Vol 5 No 2 (2018)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (207.357 KB) | DOI: 10.24843/IJBB.2018.v05.i02.p04

Abstract

In the previous research, we obtained three catagories of M1 mutant cowpea namely 1) purple pod mutant cowpea, 2) green pod mutant cowpea which has three pods in a stalk, and 3) green pod mutant cowpea which has two pods in a stalk. All those three catagories of M1 mutant cowpeas were treated again with colchicine in a multistep mutagenesis proses in vivo. Then, we found changes in number of leaflet in a petiole to 4 leaflets (quadrifoliate) and to five leaflets in a petiole (pentafoliate). These changes are indications that beside as a chromosome multipying alkaloid, colchicine causes other genetic changes as well. Through this mutagenesis research, we created gigas mutant cowpea that having longer leaves, longer pods and heavier seeds. The accurrence of two kinds of insect pests attack were found namely cowpea aphid Aphis craccivora and pod sucking bug Riptortus linearis.
PRIMER DESIGN OF CVPDr DNA FRAGMENT SEQUENCES THAT AMPLIFY SPECIFIC FRAGMENTS TO DISTINCT THE RESISTANT FRAGMENT FROM Triphasia trifolia (Burm. F.) P. Wils. AND THE SUSCEPTIBLE FRAGMENT FROM Citrus nobilis Lour. Ni Made Ayuratih Utami; I Gede Putu Wirawan; I Ketut Suada
International Journal of Biosciences and Biotechnology Vol 7 No 2 (2020)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (352.022 KB) | DOI: 10.24843/IJBB.2020.v07.i02.p05

Abstract

CVPDr is a DNA fragment that indicates that plants are resistant to CVPD. Previous research using primers that amplified 841 bp CVPDr fragment was able to amplify the fragment from Triphasia trifolia that considers being a resistant plant, Citrus aurantifolia var. seedless which considers being a tolerant plant, and some susceptible citrus plants to CVPD disease. In this study, we designed some primers that amplified only CVPDr DNA fragment from T. trifolia which consider as the resistant plant and a primer that amplified only DNA fragmen from Citrus nobilis which consider as the susceptible citrus plants. The primers for CVPDr on T. trifolia are TCATCTGCATGGGATACC for forward primer and GCCTTGAGCTTGTAAGTG for reverse primer which turned out to amplify the DNA of T. trifolia and also the C. nobilis cultivar Denpasar and only succeeded in not amplifying the C. nobilis cultivar Gianyar. The primers for CVPDr on C. nobilis are GAATGGCTTAGCAGAAAGG for forward primer and GGTTGTAGATGGACATAGG for reverse primer turned out can not only amplify the DNA C. nobilis but also amplify T. trifolia.
PRICK AND SOAK Agroacterium tumefaciens-MEDIATED IN PLANTA TRANSFORMATION IN TOMATO (Lycopersicon esculentum Mill.) I Putu Wahyu Sanjaya; Rindang Dwiyani; I Gede Putu Wirawan; Bambang Sugiharto
International Journal of Biosciences and Biotechnology Vol 5 No 2 (2018)
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (320.017 KB) | DOI: 10.24843/IJBB.2018.v05.i02.p05

Abstract

One of the modern plant breedings through genetic engineering is Agrobacterium tumefaciens-mediated transformation. Agrobacterium tumefaciens-mediated transformation can be performed in vitro or in planta. In planta transformation arises from the weaknesses of the in vitro method such as need high hygiene standard, professional tissue culture experts, and more time to prepare explants and somaclonal variation. In planta transformation is a method to transfer the gene to the plant genome without any tissue culture stages. The aims of this research were to know the possibility of the prick and soak in planta method with the target of tomato seeds and to know the most suitable inoculation time for tomato seeds transformation by prick and soak method the transformation is done by pricking the seeds and soaking them in the A. tumefaciens suspension. The treatments in this study were 1 and 2 days inoculation time to test the efficacy of prick and soak in planta transformation method. Tomato seeds were pricked with a needle on the center once, and then soaked in A. tumefaciens strain LB4404 suspension carrying pKYS-SoSPS1 plasmid with Neomycin Phosphotransferase (NPTII) and Saccharum officinarum Sucrose Phosphate synthase (SoSPS1) genes. Visualization of tomato’s DNA samples after PCR showed that 1-day inoculation sample was positively integrated with NPTII gene and negative in the 2 days inoculation treatment.
PHYTOCHEMICAL ANALYSIS AND ANTIOXIDANT ACTIVITY OF PURNAJIWA FRUIT EXTRACT (Euchresta horsfieldii (Lesch.) Benn.) Romulia Trielva Apriliani; I Gede Putu Wirawan; Wayan Adiartayasa
International Journal of Biosciences and Biotechnology Vol 8 No 1 (2020): Vol. 8 No. 1, September 2020
Publisher : Central Laboratory for Genetic Resource and Molecular Biology, Faculty of Agriculture, Udayana University in cooperation with Asia-Oceania Bioscience and Biotechnology Consortium (AOBBC)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/IJBB.2020.v08.i01.p04

Abstract

Antioxidant is a chemical compound that could give one or more electrons to inhibit the free radical reaction. One of the plants that potentially produce antioxidants is purnajiwa (Euchresta horsfieldii (Lesch.) Benn.). The research was conducted using the fruit of purnajiwa. The purpose of this study is to know antioxidant activity from purnajiwa fruit using the DPPH method and measured by UV-Vis spectrophotometry. The extract of purnajiwa fruit gained by the maceration method using 96% ethanol solvent. The results of phytochemistry screening found out that the extract contains flavonoid, alkaloid, saponin, tannin, and terpenoid. According to flavonoid testing using quercetin, the results obtained from purnajiwa extract contained flavonoid of 1,651 mg QE/g. The activity test of antioxidants quantitatively by DPPH using UV-Vis spectrophotometry found out that purnajiwa extract has IC50 value of 57,28 ppm so that purnajiwa extract has strong antioxidant activity that could be used as natural antioxidant resources.
Co-Authors - Afrizal ANDRIANI ANDRIANI Antony Lay Aulanni ‘am Aulanni ‘am Bambang Sugiharto BAYU ARYA BAGASKARA Ciawi - DARWIN SILALAHI DEWA AYU RATIH Dewi, Ni Kadek Emi Sintha Dharmawibawa I.D. DINA RAHMAWATI Evy Prima FADEL ALKAHFI Gayatri, Anak Agung Sagung Intan Gresia Eldina Haryadi, Celvin Hengky Surya Bhuana I Gede Ketut Susrama I Gusti Ayu Diah Yuniti I Ketut Siadi I Ketut Suada I Ketut Suada I M. Sudarma I Made Parama Nanda Mahatya I N. WIJAYA I NYOMAN MANTIK ASTAWA I NYOMAN TRYADI CAHYA NUGRAHA I NYOMAN WIJAYA I NYOMAN WIJAYA I Putu Agus Hendra Wibawa I Putu Anom I Putu Sudiarta I Putu Wahyu Sanjaya I WAYAN PRASTITA DIASTAMA I WAYAN SUAMBA I.N. Wijaya Ida Ayu Putri Darmawati K. Sri Marhaeni Julyasih K. Suata Kalimutu, Putu Krisnawan Kayo Gouya Ketut Sri Marhaeni Julyasih Ketut Srie Marhaeni Julyasih Liliek Sulistyowati Linawati Linawati Luh Putu Wrasiati M. Puspawati Made Adnyana Made Heny Urmila Dewi MADE SRITAMIN Merlyna Rosalia Motoyuki Suzuki Munthe, Lambok Jenny Sagita MUSLIM MUSLIM NADIAH SILITONGA Nevy Widya Pangestika Ni Gusti Ayu Dewi Paramita Arisandi NI KADEK DWI PASARI Ni Kadek Emi Sintha Dewi Ni Kadek Sintya Dewi NI KADEK SINTYA DEWI NI MADE ADHYA NIDIDHYA SANI Ni Made Ayuratih Utami Ni Made Regina Prasetya Putri Ni Made Suaniti NI NENGAH DARMIATI NI WAYAN ARMINI Ningsih, Gusti Ketut Asti Dea Nobuyuki Kohno Novayolla, Alsha Nurftatmelia Nyoman Agus Bagiada Parwata, I Made Oka Pranata, Kadek Dwipayana Pranatayana, Ida Bagus Gede PUTU BAMBANG IKA WINJALISTA PUTU SENA WIDIATMA Riezchy Riando Mamanua Rindang Dwiyani Rizki, Muhamad Farrel ROMAULI THERESIA NAINGGOLAN Romulia Trielva Apriliani Rusmita, Gst Ayu Putu Ika Yulia Safitri R. Sahanggamu Y. P. Sang Ayu Made Putri Suryani Sang Ayu Made Putri Suryani, Sang Ayu Made Putri Sasadara, Maria Malida Vernandes Setianingsih, Ni Luh Putu Putri Shara Yulita Harianja Shchegolkova, Nataliya Shin-ichi Sekiyama Simarmata, Jonatan Alexius Suniti N.W. TRISNA AGUNG PHABIOLA VANI SILVANA VEDERIS LEUNARDUS VICKY TANDYA WAYAN ADIARTAYASA WHISNU IDA BAGUS YOLANDA HASSIAN MANALU Yundari, Yundari