Jessada Denduangboripant scite author profile

Background: In Thailand, rabies remains a neglected disease with authorities continuing to rely on human death statistics while ignoring the financial burden resulting from an enormous increase in post-exposure prophylaxis. Past attempts to conduct a mass dog vaccination and sterilization program have been limited to Bangkok city and have not been successful. We have used molecular epidemiology to define geographic localization of rabies virus phylogroups and their pattern of spread in Thailand.

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High intraindividual variation in internal transcibed spacer sequences in Aeschynanthus (Gesneriaceae): implications for phylogenetics

Denduangboripant

Cronk

2000

Proc. R. Soc. Lond. B

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Aeschynanthus (Gesneriaceae) is a large genus of tropical epiphytes that is widely distributed from the Himalayas and China throughout South-East Asia to New Guinea and the Solomon Islands. Polymerase chain reaction (PCR) consensus sequences of the internal transcribed spacers (ITS) of Aeschynanthus nuclear ribosomal DNA showed sequence polymorphism that was difficult to interpret. Cloning individual sequences from the PCR product generated a phylogenetic tree of 23 Aeschynanthus species (two clones per species). The intraindividual clone pairs varied from 0 to 5.01%. We suggest that the high intraindividual sequence variation results from low molecular drive in the ITS of Aeschynanthus. However, this study shows that, despite the variation found within some individuals, it is still possible to use these data to reconstruct phylogenetic relationships of the species, suggesting that clone variation, although persistent, does not pre-date the divergence of Aeschynanthus species. The Aeschynanthus analysis revealed two major clades with different but overlapping geographic distributions and reflected classification based on morphology (particularly seed hair type).

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Phylogenetic analysis ofPythium insidiosumThai strains using cytochrome oxidase II (COXII) DNA coding sequences and internal transcribed spacer regions (ITS)

et al. 2011

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To investigate the phylogenetic relationship among Pythium insidiosum isolates in Thailand, we investigated the genomic DNA of 31 P. insidiosum strains isolated from humans and environmental sources from Thailand, and two from North and Central America. We used PCR to amplify the partial COX II DNA coding sequences and the ITS regions of these isolates. The nucleotide sequences of both amplicons were analyzed by the Bioedit program. Phylogenetic analysis using genetic distance method with Neighbor Joining (NJ) approach was performed using the MEGA4 software. Additional sequences of three other Pythium species, Phytophthora sojae and Lagenidium giganteum were employed as outgroups. The sizes of the COX II amplicons varied from 558-564 bp, whereas the ITS products varied from approximately 871-898 bp. Corrected sequence divergences with Kimura 2-parameter model calculated for the COX II and the ITS DNA sequences ranged between 0.0000-0.0608 and 0.0000-0.2832, respectively. Phylogenetic analysis using both the COX II and the ITS DNA sequences showed similar trees, where we found three sister groups (A(TH), B(TH), and C(TH)) among P. insidiosum strains. All Thai isolates from clinical cases and environmental sources were placed in two separated sister groups (B(TH) and C(TH)), whereas the Americas isolates were grouped into A(TH.) Although the phylogenetic tree based on both regions showed similar distribution, the COX II phylogenetic tree showed higher resolution than the one using the ITS sequences. Our study indicates that COX II gene is the better of the two alternatives to study the phylogenetic relationships among P. insidiosum strains.

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Evolution in Aeschynanthus (Gesneriaceae) inferred from ITS sequences

Denduangboripant

Mendum

Cronk

2001

Plant Systematics and Evolution

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