Abstract. Wullur S, Napitupulu H, Wantania LL, Ginting EL, Warouw V, Tallei TE, Rumengan IFM. 2020. Molecular identification of bacteria isolated from culture medium of rotifer fed on fishery waste diet. Biodiversitas 21: 2735-2740. The aim of this study was 16S-rRNA sequences based molecular identification of bacteria isolated from culture medium of rotifer fed with fishery waste diet (FWD). We cultured rotifer Brachionus rotundiformis in sterilized seawater (salinity 25 ppt) using FWD, following the procedure in Patent No. P00201609066. Bacteria from the culture were collected, homogenized, diluted 10 to 1000 fold, spread on agar plates and incubated at 370C for 24 to 48 hours. Representative colonies of the bacteria according to their morphologies were isolated for further characterization. Genomic DNA of the isolates were extracted, and the 16S rRNA gene of the isolates were amplified. Polymerase Chain Reaction (PCR) product of each isolate was sequenced and queried against the NCBI GenBank database. Six different isolates based on size, color, elevation, margin, and colony were observed during 24-48 hours incubation at 370C. The 16S rRNA genes of the six isolates were successfully amplified and produced DNA band at 1300-1500 bp, with quality value equal to or greater than 20 (QV20+) of each entire sequence around 941-1253 bases. Basic Local Alignment Search Tool (BLAST) queries in the NCBI GenBank and EzBioCloud database using the 16S-rRNA gene sequences showed that the six isolates belong to four different genera, i.e: Bacillus, Staphylococcus, Vibrio, and Alteromonas.
Abstract. Ginting EL, Wantania LL, Moko EM, Tumbol RA, Siby MS, Wulur S. 2021. Isolation and identification of thermophilic amylolytic bacteria from Likupang Marine Hydrothermal, North Sulawesi, Indonesia. Biodiversitas 22: 3326-3332. The aims of the research were to isolate and identify the amylase-producing thermophilic bacteria from Likupang Marine Hydrothermal, North Sulawesi, Indonesia. The bacteria were characterized based on the colony and cell morphology and subsequently screened for their amylase activities. The bacterial isolates were identified based on 16S rRNA gene sequences. There were 12 thermophilic bacteria isolates from Likupang Marine Hydrothermal that were able to produce amylase. Two selected isolates (L3 and L9) had an amylolytic index value in the range of 3.04-3.52 at 55oC. The colonies of L3 and L9 are circular, and they are Gram positive, rod-shaped, and motile bacteria. Based on the 16S rRNA gene sequences and phylogenetic tree analysis showed that L3 was closely related to Bacillus caldotenax with 93% similarity while L9 had 99% similarity to B. caldotenax. Hence, we identified L3 isolate as Bacillus sp. strain L3 and L9 isolate as B. caldotenax strain L9. Both of these bacteria were grouped as Geobacillus thermoleovorans.
The evolution of complex phenotypes like reproductive strategies is challenging to understand, as they often depend on multiple adaptations that only jointly result in a specific functionality. Sulawesi ricefishes (Adrianichthyidae) evolved a reproductive strategy termed as pelvic brooding. In contrast to the more common transfer brooding, female pelvic brooders carry an egg bundle connected to their body for weeks until the fry hatches. To examine the genetic architecture of pelvic brooding, we crossed the pelvic brooding Oryzias eversi and the transfer brooding Oryzias nigrimas (species divergence time: ∼3.6 my). We hypothesize, that a low number of loci and modularity have facilitated the rapid evolution of pelvic brooding. Traits associated to pelvic brooding, like rib length, pelvic fin length, and morphology of the genital papilla, were correlated in the parental species but correlations were reduced or lost in their F1 and F2 hybrids. Using the Castle-Wright estimator, we found that generally few loci underlie the studied traits. Further, both parental species showed modularity in their body plans. In conclusion, morphological traits related to pelvic brooding were based on a few loci and the mid-body region likely could evolve independently from the remaining body parts. Both factors presumably facilitated the evolution of pelvic brooding.
This study aims to obtain isolates and amplify the associative bacterial 16SrRNA gene in K. alvarezii algae. The K. alvarezii algae was collected from seaweed cultivation area in Belang, Southeast Minahasa, North Sulawesi. Associative bacteria were sampled from K. alvarezii algae, grown in Nutrient Agar and separated based on their morphological characteristics. Each isolates were extracted their DNA genome and.the16S rRNA gene of each isolate was amplified using PCR. Eight associative bacterial from K. alvarezii algae were successfully isolated based on morphological characteristics which were dominated by round shape, smooth edges, convex elevation, and white color of the isolates. The results of genomic DNA extraction from each of these isolates were successfully used as templates to amplify the 16s rRNA gene.Key word: Bacteria, Kappaphycus alvarezii, Taxsonomy, 16S rRNAABSTRAKPenelitian ini bertujuan untuk mendapatkan isolat dan mengamplifikasi gen 16SrRNA bakteri asosiatif pada alga K. alvarezii. Metode penelitian diawali dengan pengambilan sampel alga K. alvarezii di lokasi pembudidayaan rumput laut di desa Belang, Minahasa Tenggara, Sulawesi Utara. Selanjutnya, bakteri asosiatif pada alga K. alvarezii tersebut ditumbuhkan dalam media Nutrient Agar, isolat yang tumbuh kemudian dipisahkan berdasarkan karakteristik morfologinya. dan gen 16S rRNA masing-masing isolat diamplifikasi menggunakn PCR. Delapan isolat bakteri asosiatif pada alga K. alvarezii berhasil diisolasi dengan karakteristik morfologi berbeda yang didominasi dengan bentuk round, tepian smooth, elevasi convex, dan warna putih. Hasil ekstraksi DNA genom dari masing-masing isolat tersebut berhasil digunakan sebagai template untuk mengamplifikasi gen 16s rRNA.Kata Kunci: Bakteri, Kappaphycus alvarezii, Taksonomi, 16S rRNA
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