Characterization and localization of cryptic satellite DNAs in barley (Hordeum vulgare)

Summary Three satellites on the heavy side of the main band and two satellites on the light side were isolated in a pure from by preparative ultracentrifugation of H. vulgare DNA in Ag⁺/Cs₂SO₄ density gradients. The satellites were characterised in terms of their buoyant densities in CsCl and their thermal dissocation temperature in both native and reassociated forms to Cot 4. In CsCl gradients, heavy satellites formed a single peak whereas light satellites resolved into more than one component. Thermal transitions of some satellites indicated the presence of more than one molecular species. The multicomponent nature of thermal denaturation profiles was evident on differential analysis. Radioactive RNAs complementary to the three heavy satellites of H. vulgare were localised by in situ hybridization onto its nuclei and chromosomes. One heavy satellite (H₃) was found to be distributed on all chromosomes, although one pair showed less hybridization compared to the others. The other satellite (H₁) appeared to be present in a much lower amount on the chromosomes.     

Fractionation and characterization of satellite DNAs of the kangaroo rat (Dipodomys ordii)

Nuclear DNA from liver cells of the kangaroo rat species Dipodomysordii was fractionated and characterized with the aid of buoyant density gradients in neutral and alkaline CsCl and in Ag⁺-Cs₂SO₄. More than one-half of the DNA was present in three density satellites, a greater proportion than in any other species yet reported; the purified satellite DNAs were denser than principal DNA. All satellite fractions revealed sharp isopycnic bands and narrow denaturation profiles. Two had identical buoyant densities but differed substantially in T_m, base composition, and reassociation kinetics. In alkaline CsCl all three satellites, as well as a shoulder of intermediate repetitive DNA on the heavy side of the principal band, revealed unique strand densities. The most highly repetitive satellite was unusually rich in (G + C) and contained 6.7% of 5-methylcytosine. A survey of internal organs and spermatozoa of an adult male revealed no significant differences in distribution of the satellites among tissues.     

Satellite DNA in the sheep and goat

Sheep and goats possess closely similar satellite DNAs which seem to be concentrated in the heterochromatin and the nucleolus. In both species, the major and minor satellites have buoyant densities of 1.711 g·cm ^–3 and 1.718 g·cm ^–3 and represent 12% and 2.5%, respectively, of the total DNA. Major satellite concentration in the combined heterochromatin and nucleolar fraction was 19%, and in the pure nucleolar fraction it was 51%. Most hitherto reported satellite DNAs have varied markedly in density and concentration from species to species, even within the same genus. The close similarity of the sheep and goat satellite is discussed in the light of what is known about the evolutionary relationship between the sheep and the goat and in the light of various hypotheses concerning the possible functions of satellite DNA.     

Fractionation of plant protoplast types by iso-osmotic density gradient centrifugation

Summary A simple effective technique for the fractionation of protoplast populations is described. Protoplasts are separated by low-speed centrifugation in an iso-osmotic, discontinuous density gradient system on the basis of differences in their buoyant densities. At a constant osmolality of 660±20 mOs/kg H₂O, the gradients provide a density range from 1.017 to 1.069 g/cm³ at 20 °C which corresponds to the buoyant densities of most protoplast types studied. Characteristics of the KMC/S-density gradient system and factors affecting the fractionation were investigated. Protoplasts were isolated from various tissues and cultivars of tobacco, barley, wheat, rye, oat and maize. Their density-dependent distribution profiles in KMC/S-gradients and their average buoyant densities were determined under standardized conditions. Great differences in the buoyant densities were found between protoplasts of different tissues. Mixed populations of two types of protoplasts, differing in buoyant density by about 15–20 mg/cm³, were separated to give highly purified fractions. Factors affecting the buoyant densities of protoplasts have been investigated. Ploidy level and species differences did not significantly affect the fractionation profiles. However, an age-dependent variation in the average buoyant density of tobacco mesophyll protoplasts was observed. Fractionation of tobacco mesophyll protoplasts and their subsequent regeneration to plants demonstrates the practicability and physiological compatibility of the KMC/S-density gradient system under sterile conditions. The morphogenetic potential of protoplasts was not affected by the separation procedure or the gradient components.     

Two AT-rich satellite DNAs in the chironomid Glyptotendipes barbipes (Staeger)

Two AT-rich satellite DNAs are present in the genome of Glyptotendipes barbipes. The two satellites have densities of 1.680 g/cm³ (=21% GC) and of 1.673 g/cm³ (=13% GC) in neutral CsCl-density gradients. The main band DNA has a density of 1.691 g/cm³ (=32% GC). This value is in agreement with the 33% GC-content of G. barbipes DNA calculated from thermal denaturation (T_M=83° C). — In brain DNA as well as in salivary gland DNA the two satellite sequences together comprise 12–15% of the total G. barbipes DNA. Comparisons of the density profiles of DNA extracted from polytene and non-polytene larval tissue gave no hints for underreplication of the satellite DNAs during polytenization. — The two satellite DNAs have been isolated from total DNA by Hoechst 33258-CsCl density centrifugation and then localized in the polytene salivary gland chromosomes by in situ hybridization. Both satellite sequences hybridize to all heterochromatic centromere bands of all four chromosomes of G. barbipes. Satellite I (1.673 g/cm³) hybridizes mainly with the middle of the heterochromatin, satellite II (1.680 g/cm³) hybridizes with two bands at the margin of the heterochromatin. In situ hybridization with polytene chromosomes of Chironomus thummi revealed the presence of G. barbipes satellite sequences also in the Ch. thummi genome at various locations, mainly the centromere regions.     

Analysis of DNA from related and diverse species of Barley

DNAs of three closely related diploid species Hordeum vulgare, H. agriocrithon and H. spontaneum were compared among themselves and with a group of three species related to each other H. californicum (2x), H. jubatum (4x), and H. arizonicum (6x) having one genome in common.Buoyant densities of the DNAs from these species fall within a narrow range (1.700–1.701 g cm⁻³). Melting temperatures (T_m) of the DNAs are also similar (85.2–86.2°C). None of the DNAs showed any satellite band in neutral Cesium chloride gradients. In silver-cesium sulphate gradients, however, DNAs of all the species formed satellites on both the light and heavy sides of the main. band The diploid series have similar but not identical satellite patterns. The members of the polyploid series showed similar satellite patterns among themselves but distinct from those of the diploid series. In the polyploid group the amount of satellite showed a progressive decrease with the increase in the ploidy.The amount of repeated DNA (reassociating up to Cot 100) in H. vulgare was 69% and in H. arizonicum 65% of the total. The two species differed in their Cot curves. The low Cot fractions of H. arizonicum contained components of low buoyant densities which were absent in the corresponding Cot fractions of H. vulgare DNA.     

Solar heat gain in a desert rodent: unexpected increases with wind speed and implications for estimating the heat balance of free-living animals

We quantified metabolic power consumption as a function of wind speed in the presence and absence of simulated solar radiation in rock squirrels, Spermophilus variegatus, a diurnal rodent inhabiting arid regions of Mexico and the western United States. In the absence of solar radiation, metabolic rate increased 2.2-fold as wind speed increased from 0.25 to 4.0 m·s^-1. Whole-body thermal resistance declined 56% as wind speed increased over this range, indicating that body insulation in this species is much more sensitive to wind disruption than in other mammals. In the presence of 950 W·m^-2 simulated solar radiation, metabolic rate increased 2.3-fold as wind speed was elevated from 0.25 to 4.0 m·s^-1. Solar heat gain, calculated as the reduction in metabolic heat production associated with the addition of solar radiation, increased with wind speed from 1.26 mW·g^-1 at 0.25 m·s^-1 to 2.92 mW·g^-1 at 4.0 m·s^-1. This increase is opposite to theoretical expectations. Both the unexpected increase in solar heat gain at elevated wind speeds and the large-scale reduction of coat insulation suggests that assumptions often used in heat-transfer analyses of animals can produce important errors.Abbreviations absorptivity of coat to solar radiation - kinematic viscosity of air (mm²·s^-1) - reflectivity of coat to solar radiation - a r _B expected at zero wind speed (s·m^-1) - A _P projected surface area of animal on plane perpendicular to solar beam (cm²) - A _SKIN skin surface area (cm²) - b Coefficient describing change in r _B with change in square-root of wind speed (s^1.5·m^1.5) - d hair diameter (m) - d characteristic dimension of animal (m) - D _H thermal diffusivity of air (m²·s^-1) - E evaporative heat loss (W·m^-2) - I probability per unit coat depth that photon will strike hair - k constant equalling 1200 J·m^-3·°C^-1 - l _C coat depth m) - l _H hair length (m) - M metabolic rate (W·m^-2) - n density of hairs of skin (m^-2) - Q _A solar heat gain to animal (W·m^-2) - Q _I solar irradiance intercepted by animal (W·m^-2) - RQ respiratory quotient - r _A thermal resistance of boundary layer (s·m^-1) - r _B whole-body thermal resistance (s·m^-1) - r _E thermal resistance between animal surface and environment s·m^-1) - r _R radiative resistance (s·m^-1) - r _S sum of r _B and r _E at 0.25 m·s^-1 (s·m^-1) - r _T tissue thermal resistance s·m^-1) - T _AIR air temperature (°C) - T _B body temperature (°C) - T _E operative temperature of environment (°C) - T _ES standard operative temperature of environment (°C) - u wind speed (m·s^-1)     

The DNAs of the A and B chromosomes of the mealy bug,Pseudococcus obscurus

When the DNA of mealy bugs carrying B chromosomes (+ B:DNA) was compared to the DNA of individuals not possessing Bs (-B:DNA), no significant differences were found using isopycnic centrifugations in CsCl or thermal denaturation analyses. Both DNAs had buoyant densities of 1.693 g/cm³ in neutral CsCl gradients and 1.748 g/cm³ in alkaline CsCl gradients. Satellite DNAs were not detected. The average T_m of +B:DNA was 67.9° C in 0.1 SSC while -B:DNA had an average T_m of 67.4° C in the same solution. However, in situ molecular hybridizations with complementary RNAs (cRNAs) transcribed in vitro from each type of DNA showed considerable differences with regard to the amount of labeling of B chromosomes. Using cRNA to +B:DNA, the average number of silver grains over a B chromosome was 2.1 × the average number of silver grains over individual non-B chromosomes (A chromosomes). In contrast, the ratio (B/A) using cRNA to -B:DNA was less than 0.14. The results are interpreted as meaning that very little DNA is shared in common by both A and B chromosomes.     

复苏植物旋蒴苣苔棉子糖合酶基因的克隆和表达

复苏植物是研究植物耐脱水机制的特殊模式植物和宝贵的耐旱基因资源植物。以复苏植物旋蒴苣苔(Boea hygrometrica) 为材料研究其在脱水和复水过程中棉子糖系列寡糖含量的变化, 并克隆了旋蒴苣苔棉子糖合酶基因BhRFS。荧光定量PCR检测表明, BhRFS受干旱、低温(4°C)、高盐(200 mmol·L^–1NaCl)和ABA(100 μmol·L^–1)诱导表达上调, 而高温(37°C)抑制其表达, H₂O₂(200 μmol·L^–1)处理对其没有影响。研究结果表明, BhRFS可能参与了多种非生物逆境胁迫抗性反应, 并受到ABA依赖的信号通路调控。     

Thermal behavior of round and wagtail dancing honeybees

The thermal behavior of round and wagtail dancing honeybees (Apis mellifera carnica) gathering sucrose solutions of concentrations between 0.5 and 2 mol·l^-1 was investigated under field conditions by infrared thermography (30–506 m flight distance). During the stay inside the hive thoracic surface temperature ranged from 31.4 to 43.9 °C. In both round and wagtail dancing honeybees the concentration of sucrose in the food influenced dancing temperature in a non-linear way. Average dancing temperature was 37.9 °C in foragers gathering a 0.5 mol·l^-1 sucrose solution, 40.1°C with a 1 mol·l^-1, 40.6°C with a 1.5 mol·l^-1 and 40.7°C with a 2 mol·l^-1 solution. The variability of thoracic temperature was highest with the 0.5 mol·l^-1 and lowest with the 1.5 and 2 mol·l^-1 concentrations. Thoracic temperatures during trophallactic contact with hive bees were similar to dancing temperature at 1.5 mol·l^-1 but lower at the other concentrations. During periods of distribution of food to hive bees (trophallactic contact >2.5s) the dancers' thorax cooled down by more than 0.5°C considerably more frequently with the 0.5 mol·l^-1 solution (65% of cases) than with the 1.5 mol·l^-1 solution (26%). By contrast, heating the thorax up by more than 0.5°C was infrequent with the 0.5 mol·l^-1 solution (2%) but occurred at a maximum rate of 26% with the 1.5 mol·l^-1 solution. Bees gathering the 1 or 2 mol·l^-1 solutions showed intermediate behavior. Linear model analysis showed that at higher concentrations the dancers compensated better for variations of hive air temperature: per 1 °C increase of hive temperature dancing temperature increased by 0.34, 0.22, 0.12, and 0.13 °C with 0.5, 1, 1.5, and 2 mol·l^-1 sucrose solutions, respectively. The results furnish evidence that dancing honeybees follow a strategy of selective heterothermy by tuning their thermal behavior to the needs of the behavior performed at the moment. Thoracic temperature is regulated to a high level and more accurately when fast exploitation of profitable food sources is recommended. Thoracic temperature is lowered when the ratio of gain to costs of foraging becomes more unfavorable.Abbreviations SD standard deviation - SD _reg SD around regression line - H _rel relative humidity at feeding station - T _a air temperature at feeding station - T _i air temperature near the dancers - T _d Thoracic surface temperatures - T _d dancing - T _tr trophallactic contact (distribution of food) - T _w walking - T _stay mean temperature of total stay in the hive     

The energetics of the common mole rat Cryptomyś, a subterranean eusocial rodent from Zambia

Body temperature, oxygen consumption, respiratory and cardiac activity and body mass loss were measured in six females and four males of the subterranean Zambian mole rat Cryptomys sp. (karyotype 2 n=68), at ambient temperatures between 10 and 35°C. Mean body temperature ranged between 36.1 and 33.2°C at ambient temperatures of 32.5–10°C and was lower in females (32.7°C) than in males (33.9°C) at ambient temperatures of 10°C but dit not differ at thermoneutrality (32.5°C). Except for body temperature, mean values of all other parameters were lowest at thermoneutrality. Mean basal oxygen consumption of 0.76 ml O₂·g^-1· h^-1 was significantly lower than expected according to allometric equations and was different in the two sexes (females: 0.82 ml O₂·g^-1·h^-1, males: 0.68 ml O₂·g¹·h^-1) but was not correlated with body mass within the sexes. Basal respiratory rate of 74·min^-1 (females: 66·min¹, males: 87·min^-1) and basal heart rate of 200·min^-1 (females: 190·min^-1, males: 216·min^-1) were almost 30% lower than predicted, and the calculated thermal conductance of 0.144 ml O₂·g^-1·h¹·°C^-1 (females; 0.153 ml O₂·g^-1·h^-1·°C^-1, males: 0.131 ml O₂·g^-1·h^-1·°C^-1) was significantly higher than expected. The body mass loss in resting mole rats of 8.6–14.1%·day^-1 was high and in percentages higher in females than in males. Oxygen consumption and body mass loss as well as respiratory and cardiac activity increased at higher and lower than thermoneutral temperatures. The regulatory increase in O₂ demand below thermoneutrality was mainly saturated by increasing tidal volume but at ambient temperatures <15°C, the additional oxygen consumption was regulated by increasing frequency with slightly decreasing tidal volume. Likewise, the additional blood transport capacity was mainly effected by an increasing stroke volume while there was only a slight increase of heart frequency. In an additional field study, temperatures and humidity in different burrow systems have been determined and compared to environmental conditions above ground. Constant temperatures in the nest area 70 cm below ground between 26 and 28°C facilitate low resting metabolic rates, and high relative humidity minimizes evaporative water loss but both cause thermoregulatory problems such as overheating while digging. In 13–16 cm deep foraging tunnels, temperature fluctuations were higher following the above ground fluctuations with a time lag. Dominant breeding females had remarkably low body temperatures of 31.5–32.3°C at ambient temperatures of 20°C and appeared to be torpid. This reversible hypothermy and particular social structure involving division of labour are discussed as a strategy reducing energy expenditure in these eusocial subterranean animals with high foraging costs.Abbreviations BMR basal metabolic rate - br breath - C thermal conductance - HR neart rate - LD light/dark - M _b body mass - MR metabolic rate - OP oxygen pulse - PCO₂ partial pressure of carbon dioxide - PO₂ partial pressure of oxygen - RMR resting metabolic rate - RR respiratory rate - T _a ambient temperature - T _b body temperature - TNZ thermal neural zone - O₂ oxygen consumption     

The thermal and energetic significance of clustering in the speckled mousebird,Colius striatus

Summary The effect of clustering behaviour on metabolism, body temperature, thermal conductance and evaporative water loss was investigated in speckled mousebirds at temperatures between 5 and 36°C. Within the thermal neutral zone (approximately 30–35 °C) basal metabolic rate of clusters of two birds (32.5 J·g^-1·h^-1) and four birds (28.5 J·g^-1·h^-1) was significantly lower by about 11% and 22%, respectively, than that of individuals (36.4 J·g^-1·h^-1). Similarly, below the lower critical temperature, the metabolism of clusters of two and four birds was about 14% and 31% lower, respectively, than for individual birds as a result of significantly lower total thermal conductance in clustered birds. Body temperature ranged from about 36 to 41°C and was positively correlated with ambient temperature in both individuals and clusters, but was less variable in clusters. Total evaporative water loss was similar in individuals and clusters and averaged 5–6% of body weight per day below 30°C in individuals and below 25°C in clusters. Above these temperatures total evaporative water loss increased and mousebirds could dissipate between 80 and 90% of their metabolic heat production at ambient temperatures between 36 and 39°C. Mousebirds not only clustered to sleep between sunset and sunrise but were also observed to cluster during the day, even at high ambient temperature. Whereas clustering at night and during cold, wet weather serves a thermoregulatory function, in that it allows the brrds to maintain body temperature at a reduced metabolic cost, clustering during the day is probably related to maintenance of social bonds within the flock.Abbreviations BMR basal metabolic rate - bw body weight - C _totab total thermal conductance - EWI evaporative water loss - M metabolism - RH relative humidity - T _a ambient temperature - T _b body temperature - T _ch chamber temperature - T _cl cluster temperature - TEWL total evaporative water loss - LCT lower critical temperature - TNZ thermal neutral zone     

Beta-adrenergic control of trans-cutaneous evaporative cooling mechanisms in birds

Summary The decreasing effect of -adrenergic blockade on skin resistance to vapor diffusion and the onset of cutaneous water evaporation in the pigeon (Columba livia) was investigated. Oral administration of 1, 2.3 and 5 mg propranolol to pigeons (268±53 g) initiated intensive trans-cutaneous water evaporation (CWE) up to 29.1 mg H₂O·cm^–2·h^–1 in resting birds at 30°C air temperature (Ta), but had only a slight effect on CWE of birds exposed to 50 °C Ta.After 7 h of effective -adrenergic blockade (oral administration of 5 mg propranolol), skin and body temperature stabilized at 39.0±0.5 °C and 41.0±0.7 °C, compared to 40.2±0.8 °C and 41.9±0.6 °C in the control group, respectively. A slight hypothermia was accompanied by feather fluffing.Intradermal injection of 0.001, 0.01 and 0.12 mg propranolol also caused intensive CWE. Local -adrenergic blockade in relatively low blocker doses (0.001 and 0.01 mg propranolol) decreased skin resistance from a high value of 44.5 s·cm^–1 to about 6.0 s·cm^–1, and caused a sharp increase in CWE from a control value of about 4 to a high of 26.4 mg H₂O·cm^–2·h^–1 during the first two hours of exposure to 30°C Ta.The possible role of -adrenergic blockade in regulation of trans-cutaneous water evaporation of latent heat dissipation is discussed.     

Isolation and preliminary characterization of cryptic satellite DNA in pea

Optimum conditions have been established for isolation of ‘cryptic’ satellite DNA from the genome of pea (Pisum sativum), using gradients of CS₂SO₄ containing silver ions. At an Ag⁺ :DNA-P ratio (R) of 0.1, and at alkaline pH, four fractions are obtained: mainband (buoyant density 1.437 g cm³; 67% of total DNA), satellite I (buoyant density 1.582 g/cm³; 7% of total DNA), satellite II (buoyant density 1.520 g/cm³, 11% of total) and satellite III (buoyant density variable between 1.45 and 1.51 g/cm³; 15% of total). The reiterated DNA content of these four fractions has been investigated by reassociation experiments conducted over a Cot range of 1 × 10^?5 to 2.0. All four fractions contain at least two kinetic components; each fraction, including the mainband, consists at least partly of highly reiterated DNA. Ribosomal RNA hybridizes only to the mainband.     

Compositional patterns in the nuclear genome of cold-blooded vertebrates

Summary DNA preparations obtained from 122 species of fishes, 5 species of amphibians, and 13 species of reptiles were investigated in their compositional properties by analytical equilibrium centrifugation in CsCl density gradients. These species represented 21 orders of Osteichthyes, 3 orders of Chondrichthyes, 2 orders of amphibians, and 3 orders of reptiles. Modal buoyant densities of fish DNAs ranged from 1.696 to 1.707 g/cm³, the vast majority of values falling, however, between 1.699 and 1.704 g/cm³, which is the range covered by the DNAs of amphibians and reptiles. In all cases, DNA bands in CsCl were only weakly asymmetrical and only very rarely were accompanied by separate satellite bands (mostly on the GC-rich side). Intermolecular compositional heterogeneities were low in the vast majority of cases, and, like CsCl band asymmetries, at least partially due to cryptic or poorly resolved satellites. The present findings indicate, therefore, that DNAs from cold-blooded vertebrates are characterized by a number of common properties, namely a very wide spectrum of modal buoyant densities, low intermolecular compositional heterogeneities, low CsCl band asymmetries, and, in most cases, small amounts of satellite DNAs. In the case of fish DNAs a negative correlation was found between the GC level and the haploid size (c value) of the genome. If polyploidization is neglected, this phenomenon appears to be mainly due to the fact that increases and decreases in GC are associated with contraction and expansion phenomena, respectively, of intergenic noncoding sequences, which are GC poor relative to coding sequences.     

Metabolism and thermoregulation in the eastern hedgehogErinaceus concolor

Body temperature and oxygen consumption were measured in the eastern hedgehog,Erinaceus concolor Martin 1838, during summer at ambient temperatures (T _a) between-6.0 and 35.6°C.E. concolor has a relatively low basal metabolic rate (0.422 ml O₂·g^-1·h^-1), amounting to 80% of that predicted from its body mass (822.7 g). Between 26.5 and 1.2°C, the resting metabolic rate increases with decreasing ambient temperature according to the equation: RMR=1.980-0.057T _a. The minimal heat transfer coefficient (0.057 ml O₂·g^-1·h^-1·°C^-1) is higher than expected in other eutherian mammals, which may result from partial conversion of hair into spines. At lower ambient temperature (from-4.6 to-6.0° C) there is a drop in body temperature (from 35.2 to 31.4° C) and a decrease in oxygen consumption (1.530 ml O₂·g^-1·h^-1) even though the potential thermoregulation capabilities of this species are significantly higher. This is evidenced by the high maximum noradrenaline-induced non-shivering thermogenesis (2.370 ml O₂·g^-1·h^-1), amounting to 124% of the value predicted. The active metabolic rate at ambient temperatures between 31.0 and 14.5° C averages 1.064 ml O₂·g^-1·h^-1; at ambient temperatures between 14.5 and 2.0° C AMR=3.228-0.140T _a.Abbreviations AMR active metabolic rate - bm body mass - BMR basal metabolic rate - h heat transfer coefficient - NA noradrenaline - NST non-shivering thermogenesis - NST_max maximum rate of NA-induced non-shivering thermogenesis - RMR resting metabolic rate - RQ respiratory quotient - STPD standard temperature and pressure (25°C, 1 ATM) - T _a ambient temperature - T _b body temperature     

Buoyant densities of natural and synthetic DNA's in CsCl and Cs2SO4 considered as sequence-dependent properties

The buoyant densities of natural and synthetic DNA's can be accurately interrelated if second-neighbor influences are taken into account. We derive the following expressions, based partly on the buoyant densities of six synthetic DNA's, for the buoyant densities ρ (g/cm³) of DNA's having random sequences. In CsCl, and in Cs₂SO₄, . In these equations, H_G is the mole fraction of G : C base pairs in the DNA and the buoyant densities are calculated relative to densities for E. coli DNA of 1.703 and 1.426 (g/cm³) in CsCl and Cs₂SO₄, respectively.     

The effect of natural selection on enzymic catalysis.

The karyotype of Drosophila nasutoides reveals a very large autosome pair at the metaphase plate. The application of the C-banding technique shows that this chromosome is almost entirely heterochromatic and an isochromosome (Cordeiro et al., 1975). Examination of the DNA isolated from purified nuclei of D. nasutoides in neutral CsCl gradients reveals four major satellites. As much as 60% of the total DNA appears as satellites in the DNA from larval brains. The buoyant densities of the four satellites, designated as I through IV in the order of descending density, are 1.687, 1.682, 1.669 and 1.665 g/cm³, respectively. All four satellites show strand separations in alkaline CsCl gradients with the least separation in satellite III. Thermal denaturation studies with purified native satellites show that satellites I and IV consist of repeats of identical sequences, whereas satellites II and III show a large sequence variation between repeating units. As much as 10 to 24% base-pair mis-matching is observed in the reassociated satellite II. The sequence complexities obtained from DNA reassociation kinetics data are 5, 103, 2.3 × 10⁶ and 46 nucleotide pairs for the satellites I, II, III and IV, respectively. The complexity of satellite III is almost as large as that of Escherichia coli, when the reassociation rate is corrected according to the amount of mis-matching in this satellite. All four satellite sequences are localized in one chromosome (dot chromosome) according to in situ hybridizations to polytene chromosomes. The large heterochromatic chromosome seen at the metaphase plate appears as the dot chromosome after polytenization. Therefore, the large heterochromatic chromosome contains all four satellite DNA components.     

Diving metabolism and thermoregulation in common and thick-billed murres

The diving and thermoregulatory metabolic rates of two species of diving seabrid, common (Uria aalge) and thick-billed murres (U. lomvia), were studied in the laboratory. Post-absorptive resting metabolic rates were similar in both species, averaging 7.8 W·kg^-1, and were not different in air or water (15–20°C). These values were 1.5–2 times higher than values predicted from published allometric equations. Feeding led to increases of 36 and 49%, diving caused increases of 82 and 140%, and preening led to increases of 107 and 196% above measured resting metabolic rates in common and thick-billed murres, respectively. Metabolic rates of both species increased linearly with decreasing water temperature; lower critical temperature was 15°C in common murres and 16°C in thick-billed murres. Conductance (assuming a constant body temperature) did not change with decreasing temperature, and was calculated at 3.59 W·m^-2·^oC^-1 and 4.68 W·m^-2·^oC^-1 in common and thick-billed murres, respectively. Murres spend a considerable amount of time in cold water which poses a significant thermal challenge to these relatively small seabirds. If thermal conductance does not change with decreasing water temperature, murres most likely rely upon increasing metabolism to maintain body temperature. The birds probably employ activities such as preening, diving, or food-induced thermogenesis to meet this challenge.Abbreviations ADL aerobic dive limit - BMR basal metabolic rate - FIT food-induced thermogenesis - MHP metabolic heat production - MR metabolic rate - PARR post-absorption resting rate - RMR resting metabolic rate - RQ respiratory quotient - SA surface area - STPD standard temperature and pressure (25°C, 1 ATM) - T _a ambient temperature - T _b body temperature - T _IC Iower critical temperatiure - TC thermal conductance - V oxygen consumption rate - W body mass