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Molecular cloning and characterization of CD4 in an aquatic mammal, the white whale Delphinapterus leucas (1999)

Romano, Tracy A. ; Ridgway, Sam H. ; Felten, David L. ; [et al.]

Springer

Immunogenetics 49 (1999), S. 376-383

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ISSN: 1432-1211

Keywords: Key words CD4 ; T-helper lymphocyte ; Class II molecule ; HIV ; Whale

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Given the importance of the cell surface recognition protein, CD4, in immune function, the cloning and characterization of CD4 at the molecular level from an odontocete cetacean, the white whale (Delphinapterus leucas), was carried out. Whale CD4 cDNA contains 2662 base pairs and translates into a protein containing 455 amino acids. Whale CD4 shares 64% and 51% identity with the human and mouse CD4 protein, respectively, and is organized in a similar manner. Unlike human and mouse, however, the cytoplasmic domain, which is highly conserved, contains amino acid substitutions unique to whale. Moreover, only one of the seven potential N-linked glycosylation sites present in whale is shared with human and mouse. Evolutionarily, the whale CD4 sequence is most similar to pig and structurally similar to dog and cat, in that all lack the cysteine pair in the V2 domain. These differences suggest that CD4 may have a different secondary structure in these species, which may affect binding of class II and subsequent T-cell activation, as well as binding of viral pathogens. Interestingly, as a group, species with these CD4 characteristics all have high constituitive expression of class II molecules on T lymphocytes, suggesting potential uniqueness in the interaction of CD4, class II molecules, and the immune response. Molecular characterization of CD4 in an aquatic mammal provides information on the CD4 molecule itself and may provide insight into adaptive evolutionary changes of the immune system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002510050510

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Dolphin thyroid: Some anatomical and physiological findings (1971)

Ridgway, Sam H. ; Patton, G. S.

Springer

Journal of comparative physiology 71 (1971), S. 129-141

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Plasma thyroxine (T4), protein bound iodine (PBI), inorganic iodine, total iodine, thyroxine binding globulin (TGB), unsaturated TBG (resin T3 uptake test) and free thyroxine were measured in a series of tests on two species of porpoise (or dolphins) and two species of small whales. This was the first such work done on cetaceans. The values presented for the bottlenose dolphin, Tursiops truncatus, were derived from 86 plasma specimens from 31 different animals (Table 2) and should be clinically useful for the future diagnosis of thyroid disease in that species. 2. A total of twenty-four plasma specimens from the Pacific white-striped dolphin, Lagenorhynchus obliquidens (Fig. 3), the killer whale Orcinus area (Fig. 4) and the pilot whale Globicephala scammoni (Fig. 5) gave values that must be regarded as preliminary until a larger number of animals can be sampled. 3. All of these marine cetaceans have larger thyroids and smaller body surface areas than terresterial mammals of comparable weight. 4. In bottlenose dolphins and Pacific white-striped dolphins the total thyroid weight is about 2.25 times the total adrenal gland weight. The adrenals and the thyroid are both about one-third larger (on a gland weight to body weight basis) in Pacific white-striped dolphins. 5. Differences in water temperature of 6° C to 9° C did not appear to affect the plasma thyroid indices of bottlenose dolphins or killer whales (Fig. 4). A 72-hour fast caused an increase in plasma T4 levels of each of 3 bottlenose dolphins with an average rise of 1.2 μg/100 ml. 6. The high level of plasma T4 and PBI appear to correlate well with the relatively high metabolic rate observed in T. truncatus. However, the species that appears to have the highest metabolic rate, the Pacifie white-striped dolphin, Lagenorhynchus obliquidens (Fig. 3), had the lowest plasma level of T4, PBI, total iodine, TGB capacity and cholesterol (Table 2). This data points out the need for a comprehensive study of thyroid function in wild and captive white-striped dolphins and other species that are difficult to maintain in captivity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00297974

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Acoustically evoked potentials in midbrain auditory structures in sea lions (Pinnipedia) (1971)

Bullock, Theodore H. ; Ridgway, Sam H. ; Suga, Nobuo

Springer

Journal of comparative physiology 74 (1971), S. 372-387

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Twelve sea lions (Zalophus californianus) and one harbor seal (Phoca vitulina) were examined by recording evoked potentials in response to sound from the inferior colliculus and adjacent structures, under barbiturate or after implanting and coming out of anesthesia. Results were similar in air and under water. The averaged response evoked by a sharply rising tone consists of early, brief peaks and later, slow waves (Fig. 1). The latency of the earliest deflection is 3.5 to 4.8 ms from the moment of arrival of a sound pip at the ear. The potential increases in size with sound intensity approximately as a power function, over a dynamic range of 60–70 db (Fig. 2). Masking is qualitatively similar to that in common laboratory species. The properties of the midbrain response are strikingly different from those in porpoises, reported elsewhere. The pinniped is not so specialized for extremely short duration, fast rise time, sounds or for rapid recovery or ultrasonic frequencies (Figs. 3, 4, 7, 8). Evoked potentials fail to show response above 30–35 kHz at 100 db SPL; best frequency is about 4–6 kHz (Figs. 5, 6). Threshold by this method is about 20 db SPL in air. Frequency modulated tones are markedly more effective in some loci but less so than in porpoises under water. The receptive field is essentially total and directionality weak, in contrast with porpoises. Physiological results cannot settle the question whether echolocation is employed but they can indicate lack of high specialization for the types of sounds bats and porpoises use.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00341402

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