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Parasitic Anisakid Nematode Isolated from Stranded Fraser’s Dolphin (Lagenodelphis hosei Fraser, 1956) from Central Philippine Waters (2022)

Quiazon, Karl Marx A.

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Publication Date: 2022-01-31

Description: Cetaceans, including dolphins, serve as definitive hosts of zoonotic anisakid nematodes, which are important etiological agents for human anisakiasis and allergy-associated health risks. With limited knowledge of these zoonotic parasites from the marine environment in the Philippine waters, the stranding of a Fraser’s dolphin (Lagenodelphis hosei Fraser, 1956) off the central Philippines made it possible to identify the worm species isolated from its gut. Parasitological examinations were carried out using morphological and molecular tools. Morphologically, the SEM and LM data revealed that the specimens belong to the genus Anisakis of the Type 1 group. Molecularly, PCR-RFLP results of the ITS region generated only a single fragment pattern on all worm samples corresponding to the reported molecular keys for A. typica. Further sequence and phylogenetic analyses of both ITS rDNA and mtDNA COX2 genes confirmed the anisakid nematodes’ identity as A. typica. The molecular data obtained in this study support previous findings on the possible existence of local variants of A. typica in this region.

Description: Published

Description: Refereed

Keywords: Lagenodelphis hosei ; Fraser’s dolphin ; Anisakis typica ; PCR-RFLP ; ITS rDNA ; mtDNA COX2 ; ASFA_2015::M::Marine fisheries ; ASFA_2015::P::Parasites

Repository Name: AquaDocs

Type: Journal Contribution

Format: 183-192

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Microtubule assembly and oscillations induced by flash photolysis of caged-GTP (1990)

Marx, A. ; Jagla, A. ; Mandelkow, E.

Springer

European biophysics journal 19 (1990), S. 1-9

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ISSN: 1432-1017

Keywords: Assembly ; Caged-GTP ; Microtubules ; Oscillation ; Synchrotron radiation ; Tubulin ; X-ray scattering

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract Microtubule assembly and oscillations have been induced using the rapid liberation of GTP by UV flash photolysis of caged-GTP and monitored by time-resolved X-ray scattering. The flash photolysis method of achieving assembly conditions is much faster than the temperature jump method used earlier (msec vs. s range). However, the structural transitions and their rates are similar to those described previously. This means that the rates of the transitions in microtubule assembly observed before are determined by the protein itself, and not by the rate at which assembly conditions are induced. The advantages and limitations of using the photolysis of caged-GTP in microtubule assembly studies are compared with temperature jump methods. Caged-GTP itself reduces the rate of microtubule assembly and oscillations at mM concentrations, consistent with a weak interaction between the nucleotide analogue and the protein. X-rays are capable of slowly liberating GTP and other breakdown products from caged-GTP, even in the absence of UV flash photolysis, thus causing an apparent “X-ray-induced” microtubule assembly. This effect depends on the X-ray dose but is independent of the caged-GTP concentrations used here (mM range), suggesting that the breakdown of caged-GTP is caused not by the direct absorption of X-rays by the compound but by another intermediate reaction such as the generation of radicals by the X-rays.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00223567

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