What's the difference between homoeothermal and homoiothermal?
Homoeothermal
Definition:
(a.) See Homoiothermal.
Example Sentences:
(1) A marked increase in the rate of mitochondrial respiration, not coupled with ADP phosphorylation, was noted during the transformation of newborn poikilothermic animals into homoeothermic ones in the experiment on the rat tissue homogenates.
(2) It is supposed that the postnatal development of homoeothermism in rats is ensured by the formation in many tissues of a system of uncoupled respiration, which takes part in heat production without preliminary ATP synthesis.
Homoiothermal
Definition:
(a.) Maintaining a uniform temperature; haematothermal; homothermic; -- applied to warm-bodied animals, because they maintain a nearly uniform temperature in spite of the great variations in the surrounding air; in distinct from the cold-blooded (poikilothermal) animals, whose body temperature follows the variations in temperature of the surrounding medium.
Example Sentences:
(1) The results indicate that the effects of temperature on tissue metabolism in the mole rat conform to those in typical homoiotherms.
(2) Of 26 non-O1 isolates selected for cytotoxin and enterotoxin production, 23 showed a wide spectrum of cytotoxic effects on cell lines of poikilothermic and homoiothermic species, but they were weakly enterotoxigenic in the infant mouse test.
(3) Pocket mice are facultative homoiotherms with the ability to drop their metabolic rate dramatically while at rest or in response to environmental stresses.
(4) The viral susceptibility range of a poikilothermic cell line derived from the fathead minnow (Pimephales promelas) (FHM) to infection by a number of homoiothermic viruses representing most of the presently recognized viral groups and a member of the psittacosis-lymphogranuloma-trachoma group of agents was studied.
(5) Using various neurohistological, electronmicroscopic, cytochemical and electrophysiological techniques, studies have been made on the development of peripheral visual pathways in human subjects and some homoiotherm animals (pigeon Columba livia, cats, rabbits).
(6) A greater amount of glial satellites, surrounding neurons, motor centers of the spinal cord and appearance of new variety of astrocytes and oligodendrocytes are observed in the homoiothermal animals.
(7) Antibody responses in homoiothermic and poikilothermic vertebrates are significantly different in their heterogeneity and affinity range, and in the speed of the secondary response following repeated antigenic stimulation.
(8) A supposition is argued about the existence of evolutionary succession between the forms of sleep inherent in lower vertebrates and the quiet and active phases of homoiotherms' sleep.
(9) However, in comparison to human (HEF) and mouse (MEF) fibroblasts (homoiotherms) induced with NDV-R or poly I.poly C, interferon production in fibroblasts of spotted sousliks (SL) (heterotherm) and in the aneuploid line of mouse origin (L929) exhibits a greater cold resistance.
(10) The optimum temperature for Xenopus C activation is 25 degrees C. The ability of Xenopus antibody against chicken erythrocytes to co-operate with homoiothermic C in in vitro by lysis of chicken erythrocytes was tested.
(11) Therefore it seems probable that it exists in most, if not all, homoiotherm animal species.
(12) All the ECP samples were cytotoxic for fish and homoiothermic cell lines, possessed notable phospholipase activity and displayed haemolytic activity for sheep, salmon and turbot erythrocytes (but not for trout erythrocytes).
(13) isolated from fish and water tanks were simultaneously analyzed in poikilothermic and homoiothermic systems.
(14) Subnormal temperature was found to depress the production of interferon by cultures of fibroblasts of homoiotherms and heterotherms after virus or poly I.poly C induction.
(15) First homoiothermic reactions occur on the 2nd day of life and become effective on the 4th day.
(16) This may reflect a difference between poikilothermous and homoiothermous animals.
(17) Certain macroglial differences of the spinal cord in poikilothermal (Rana esculenta, Lacerta agilis) and in homoiothermal (Columba livia, Felis domesticus, Macaca rhesus) animals have been revealed.
(18) The results obtained indicate strong similarity between electrophysiological properties of the myocytes in the lymphatic vessels and those of the myocardial cells in homoiotherms.
(19) Because homoiothermic animals constitute an infinite heat reservoir, it is the transition temperature, Tt, not the endothermic heat of the transition, that determines the hydrophobically folded state of polypeptides at body temperature.
(20) Forty-seven subjects were classified as homoiothermics, thirty-one subjects as poikilothermics and forty-eight as-amphithermics.