Erythrocyte phosphofructokinase in rat strains with genetically determined differences in 2,3-diphosphoglycerate levels

We have studied the erythrocyte enzyme phosphofructokinase (PFK) from two strains of Long-Evans rats with genetically determined differences in erythrocyte 2,3-diphosphoglycerate (DPG) levels. The DPG difference is due to two alleles at one locus. With one probable exception, the genotype at this locus is always associated with the hemoglobin (Hb) electrophoretic phenotype, due to a polymorphism at the ^III-globin locus. The enzyme PFK has been implicated in the DPG difference because glycolytic intermediate levels suggest that this enzyme has a higher in vivo activity in High-DPG strain rats, although the total PFK activity does not differ. We report here that partially purified erythrocyte PFK from Low-DPG strain cells is inhibited significantly more at physiological levels of DPG (P<0.01) than PFK from High-DPG strain erythrocytes. Citrate and adenosine triphosphate also inhibit the Low-DPG enzyme more than the High-DPG enzyme. Therefore, a structurally different PFK, with a greater sensitivity to inhibitors, may explain the lower DPG and ATP levels observed in Low-DPG strain animals. These data support a two-locus (Hb and PFK) hypothesis and provide a gene marker to study the underlying genetic and physiologic relationships of these loci.This investigation was supported in part by Grant AM 14898, National Research Service Award 5 F 32 AM 05418, and Biochemical Research Support Grant 5 S07 RR 05551 from the National Institutes of Health.     

Association between cholesterol and 2,3-diphosphoglycerate in genetically selected hooded rat lines

We have developed two strains of hooded rats with differing erythrocyte oxygen affinities by selection on red cell 2,3-diphosphoglycerate levels. Genetic studies have shown that these strains differ at one DPG-level-determining locus. This article reports the results of a study which involved measurement of plasma cholesterol levels in rats from the strains and the F₂ progeny of strain intercrosses. Low-DPG strain rats, with high oxygen affinity, had significantly higher mean cholesterol levels than High-DPG rats. Animals from the extremes of the F₂ distribution of DPG levels showed similar, significantly different mean cholesterol levels, indicating that the negative association between DPG and cholesterol levels in strain rats was not due to inadvertent fixation of unrelated genes during selection on DPG. The possibility is discussed that high oxygen affinity, brought about by low DPG levels, may be causative in increasing cholesterol levels.This work was supported by an NIH Training Grant (5-T01-GM-0071) and a Michigan Heart Association Grant.     

Erythrocyte enzymes in groups of Rattus norvegicus with genetic differences in 2,3-diphosphoglycerate levels.

1. A major locus with two alleles is responsible for large differences in erythrocyte 2,3-diphosphoglycerate (DPG) levels in Rattus norvegicus. Blood from homozygous High-DPG, homozygous Low-DPG and heterozygous animals was used to measure blood indices and red cell enzyme activities. 2. Significant differences between groups were found in DPG levels, white blood cell counts and hemoglobin levels. 3. The results suggest that none of the red cell enzymes assayed is structurally or quantitatively different in the three groups.     

Association in Long-Evans hooded rats of red cell 2,3-diphosphoglycerate levels with hemoglobin types

Two sublines of commercially available Long-Evans hooded rats have been developed by genetic selection. These sublines have widely differing levels of erythrocyte 2,3-diphosphoglycerate (DPG) due to different alleles at a single genetic locus. In the present work, it is shown that rats from the commercial population are also polymorphic at a hemoglobin locus, probably involving two alleles of the ^III-globin chain locus. Particular hemoglobin types have been found to be strongly associated with certain DPG types, not only in the high-DPG and low-DPG lines but also in the commercial population. Two explanations for this association are considered. One is a single-locus hypothesis, with hemoglobin allelic variation causing DPG variation, and the other is a two-locus hypothesis, with marked linkage disequilibrium.This work was supported by a Michigan Heart Association Grant, by the Meyers Foundation, and by NIH Training Grant (5 T01-GM-0071).     

The genetic control of alkaline phosphatase activity in the duodenum of the mouse

The inheritance of duodenal alkaline phosphatase activity has been studied in two inbred strains of Swiss mice. These two strains consistently maintained a three- to fourfold difference in duodenal phosphatase activity for six generations before the start of the genetic studies. Males of both the high-activity strain (HAS) and the low-activity strain (LAS) were mated to females of the other strain to produce an F₁ generation, members of which were sib-mated to produce an F₂ generation. The frequency distributions of the parental, F₁, and F₂ generations reveal that the activity of the enzyme is under polygenic control. Distribution of activities in the F₂'s derived from HAS grandmothers differs from that of the F₂'s from LAS grandmothers, indicating that a maternally inherited factor, probably contained in the milk of one strain, influences the activity. Heritability estimates based on half-sib correlation coefficients show that additive genetic variance makes up about 50–70% of the total variance of duodenal phosphatase activity in LAS, and approximately 30–45% in HAS. The latter strain is the more variable, both within generations and within litters; its activity is also more strongly enhanced by injection of substrate into the stomach, and is more severely reduced by starvation. Chromatographic analysis of butanol extracts of phosphatase from 11-day-old mice of the two strains reveals that both contain the same two isozymes. HAS does, however, appear to have 6–8 times as much as LAS of an isozymic form of phosphatase having a relatively high phenylphosphate/-glycerophosphate ratio, and only about twice as much of a low PhP/bGP ratio form.Supported by Research Grant GM 03937 from the National Institutes of Health, U.S. Public Health Service.     

Implications of maternal nutrient restriction in transgenerational programming of hypertension and endothelial dysfunction across F1-F3 offspring

AimsAn extensive variety of prenatal insults are associated with an increased incidence of metabolic and cardiovascular disorders in adult life. We previously demonstrated that maternal global nutrient restriction during pregnancy leads to increased blood pressure and endothelial dysfunction in the adult offspring. This study aimed to assess whether prenatal exposure to nutritional insult has transgenerational effects in F₂ and F₃ offspring.Main methodsFor this, female Wistar rats were randomly divided into two groups on day 1 of pregnancy: a control group fed standard chow ad libitum and a restricted group fed 50% of the ad libitum intake throughout gestation. At delivery, all animals were fed a standard laboratory chow diet. At 11 weeks of age, one female and one male from each restricted litter were randomly selected and mated with rats from another restricted litters in order to generate the F₂ offspring. The same procedure produced F₃ generation. Similarly, the rats in the control group were bred for each generation.Key FindingsOur findings show that the deleterious effects of maternal nutrient restriction to which the F₀ mothers were exposed may not be limited to the male first generation. In fact, we found that elevated blood pressure, an impaired vasodilatory response to acetylcholine and alterations in NO production were all transferred to the subsequent males from F₂ and F₃ generations.SignificanceOur data show that global nutrient restriction during pregnancy results in a specific phenotype that can be passed transgenerationally to a second and third generation.     

Mouse spermatogonia exposed to a high,multiply fractionated dose of a cancer chemotherapeutic drug: Mutation analysis by electrophoresis

Male mice of the DBA/2J strain were injected with procarbazine at a dose of 200 mg/kg body weight twice weekly until an accumulated dose of 2400 mg/kg was reached. A concurrent control group, injected only with the vehicle (saline) was also established. Most of the treated animals died as a result of exposure and all survivors became temporarily sterile. After regaining fertility the few survivors were repeatedly mated with C57BL/6J females over several weeks time to generate a population of F₁ animals. The parental animals and the F₁ were subsequently analyzed by electrophoresis for the occurence of newly arisen mutations of spermatogonial origin. A mutation in the gene Pep-3 was found.     

Origins of Albino and Hooded Rats: Implications from Molecular Genetic Analysis across Modern Laboratory Rat Strains

Albino and hooded (or piebald) rats are one of the most frequently used laboratory animals for the past 150 years. Despite this fact, the origin of the albino mutation as well as the genetic basis of the hooded phenotype remained unclear. Recently, the albino mutation has been identified as the Arg299His missense mutation in the Tyrosinase gene and the hooded (H) locus has been mapped to the ～460-kb region in which only the Kit gene exists. Here, we surveyed 172 laboratory rat strains for the albino mutation and the hooded (h) mutation that we identified by positional cloning approach to investigate possible genetic roots and relationships of albino and hooded rats. All of 117 existing laboratory albino rats shared the same albino missense mutation, indicating they had only one single ancestor. Genetic fine mapping followed by de novo sequencing of BAC inserts covering the H locus revealed that an endogenous retrovirus (ERV) element was inserted into the first intron of the Kit gene where the hooded allele maps. A solitary long terminal repeat (LTR) was found at the same position to the ERV insertion in another allele of the H locus, which causes the so called Irish (h(i)) phenotype. The ERV and the solitary LTR insertions were completely associated with the hooded and Irish coat patterns, respectively, across all colored rat strains examined. Interestingly, all 117 albino rat strains shared the ERV insertion without any exception, which strongly suggests that the albino mutation had originally occurred in hooded rats.     

Effects of semicarbazide on DNA, RNA and protein hepatic levels on four subsequent generations of Wistar rats

1. The offspring (F1) of a parent generation (P) were mated on a brother-to-sister system to produce a second generation (F2), which was then mated in the same way to produce a third generation (F3). 2. Each of these generations were divided into two groups, controls and treated. 3. A single dose of 100 mg/kg of semicarbazide was administered to the treated Wistar rats on the 10th day of their pregnancy. 4. DNA, RNA and protein hepatic levels were measured in the livers of either 21-day-old foetuses or 1, 7, 15 or 30-day-old offspring. 5. These levels were also studied in the pregnant rats on day 21 of gestation. 6. Semicarbazide produced a significant decrease of these levels not only in the foetuses, offspring and pregnant rats but also in the controls, F2 and F3, from treated P and F1 respectively.     

Abnormally High Nourishment During Sensitive Periods Results in Body Weight Changes Across Generations

Objective : This study asked whether a brief period of over-nutrition during a developmentally sensitive time could impact the individual's adult weight and that of succeeding generations. Research Methods and Procedures : Female rat pups (F₁ generation) were randomly assigned to 1 of 3 groups: (1) a control group that was naturally reared by mothers; (2) another control group implanted with chronic gastric fistulas on postnatal day 4 and fed enough formula to match the growth of the mother-reared group; and (3) an experimental group gastrostomized and infused from day 8 through day 16 with a greater quantity of food than gastrostomy-reared controls (OF). On postnatal day 16, both gastrostomy-reared groups were returned to normal litters. Adult F₁ females from overfed and mother-reared groups were bred with normal males to yield an F₂ generation. F₂ adult females were bred to normal males to produce an F₃ generation. Results : When adult, the F₁ experimental group was heavier than control groups. F₂ adults from OF mothers were smaller than those from the control group. F₃ animals from OF grandmothers were heavier at weaning than F3 descendants from mother-reared animals. Discussion : Excess nourishment during a developmentally sensitive period changed the metabolic phenotype of one generation so dramatically that the gestational development and subsequent phenotype of two succeeding generations were also changed. The experiment models fetal effects of gestational diabetes in humans and may help to elucidate how, independent of genetic anomalies, secular changes can be detected across generations.     

Production of transgenic mice expressing the goat H-FABP gene by intratesticular injection

The objective of this study was to explore the possibility of obtaining stable transgenic animals by intratesticular injection. The recombinant vector pEGFP-H-FABP expressing the goat heart-type fatty acid binding protein and green fluorescent protein was mixed with liposome complexes and randomly injected into the testes of mice. Testicular section, fluorescence, and DNA detection assays of mouse sperm were performed to determine the integration of foreign DNA. The results showed that foreign DNA was successfully expressed in the treated mice. Furthermore, the expression and function of the foreign gene were analyzed in F₁ generation and F₂ generation mice at different levels, with the positive rates of foreign gene transfer into the F₁ and F₂ generations being 4.0 and 30.23 %, respectively. These results strongly support testicular injection as an effective method of producing transgenic animals and indicate that foreign genes can be stably passed on to the offspring. This research has theoretical and practical implications for the improvement in the quality of laboratory animals and for gene therapy.     

2,4,6-Trinitrobenzenesulfonate labels an essential amino group near the bound phosphate at the catalytic site of mitochondrial F1-ATPase

The amino reagent 2,4,6-trinitrobenzenesulfonate (TNBS) was found to inactivate mitochondrial F₁-ATPase through covalent labeling, which was not reversed by dithiothreitol. The observed rate of inactivation was retarded by inorganic phosphate, but enhanced by prior labeling of F₁ with 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-C1). These observations are consistent with the presence of an essential amino group near the bound inorganic phosphate at the catalytic site of F₁. A comparison of the observed protection of F₁ from NBD-C1 and 5′-p-fluorosulfonyl-benzoyladenosine (FSBA) respectively by inorganic phosphate and by 2′,3′-O-(2,4,6-trinitrophenyl)adenosine 5′-monophosphate (TNP-AMP) suggests that NBD-C1 labels an essential Tyr residue in the positively charged locus for binding the polyphosphate end of ATP, and that FSBA labels an essential Tyr residue in the more hydrophobic locus for binding the adenosine moiety of ATP at the catalytic site of F₁.     

Genetic improvement of egg laying traits in Fayoumi chickens bred under conditions of heat stress through selection and gene expression studies

Thermal stress has been shown to result in decreased egg production, decreased eggshell quality, and ultimately millions of dollars in losses to the industry. Therefore, there are many factors to consider when implementing genetic selection programs aimed at improving egg production under tropical conditions. So, trial is trying to improve the productivity and eggshell quality traits of the Fayoumi chicken under high ambient temperatures via selection programs and gene expression. In the present study, day-old Fayoumi chicks were raised either under normal temperature (control) or conditions of thermal stress (the heated group). At 35 weeks, male and female chickens from the control group were mated randomly and females selected for higher egg production and eggshell strength were mated to male siblings to obtain the progeny of the first generation (F₁). F₁ birds were further selected and mated to obtain the progeny of the second generation. Our results show that egg production and eggshell strength traits improved over successive generations via selection under conditions of heat stress. Furthermore, the reduction in egg production and eggshell strength as a result of heat stress declined from one generation to the next in birds selected for good heat tolerance, and an inverse relationship was observed between the OC-17 and eggshell strength. Additionally, levels of HSP90 and gene expression increased in the two successive generations, indicating that both productivity and heat tolerance were enhanced due to selection in birds raised under conditions of thermal stress. Moreover, generation exerted an important effect on this trait. Thus, desirable traits such as improved heat tolerance in producing lines were observed in Fayoumi chickens exposed to conditions of thermal stress via selection. Therefore, modern advances in studies of poultry breeding and genetics, such as gene expression studies, should be examined.     

Dominant pleiotropy controls enzymes co-segregating with paraquat resistance in Conyza bonariensis

Summary The genetics of paraquat-resistance in Conyza bonariensis was studied. Reciprocal crosses were prepared between resistant and sensitive individuals. The enzymes of the pathway that detoxifies superoxide to innocuous oxygen species involved in resistance were evaluated in the F₁ and F₂ generations. All F₁ plants were as resistant as the resistant parent, irrespective of parental sex, demonstrating dominance and excluding maternal inheritance. The activities of superoxide-dismutase, ascorbate-peroxidase and glutathione-reductase in the F₁ were constitutively as high as in the resistant parent. Resistance in the F₂ generation was distributed in a 31 ratio (resistant to sensitive). Leaves from F₂ plants were removed for a resistance assay and enzyme immuno-assays of single plants were performed. The high levels of superoxide-dismutase and glutathione-reductase, the two enzymes for which antibodies were available, were similar in resistant individuals to the levels in the resistant parent; the levels were low in the susceptible individuals. These results indicate either a very tight linkage, or more probably, that one dominant nuclear gene controls resistance by pleiotropically controlling the levels of enzymes of the activeoxygen detoxification pathway.     

Inheritance of Cry1Ac resistance and associated biological traits in the cotton bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae)

The analysis of reciprocal genetic crosses between resistant Helicoverpa armigera strain (BH-R) (227.9-fold) with susceptible Vadodara (VA-S) strain showed dominance (h) of 0.65-0.89 and degree of dominance (D) of 0.299-0.782 suggesting Cry1Ac resistance as a semi-dominant trait. The D and h values of F₁ hybrids of female resistant parent were higher than female susceptible parent, showing maternally enhanced dominance of Cry1Ac resistance. The progeny of F₂ crosses, backcrosses of F₁ hybrid with resistant BH-R parent did not differ significantly in respect of mortality response with resistant parent except for backcross with female BH-R and male of F₁ (BH-R × VA-S) cross, suggesting dominant inheritance of Cry1Ac resistance. Evaluation of some biological attributes showed that larval and pupal periods of progenies of reciprocal F₁ crosses, backcrosses and F₂ crosses were either at par with resistant parent or lower than susceptible parent on treated diet (0.01 μg/g). The susceptible strain performed better in terms of pupation and adult formation than the resistant strain on untreated diet. In many backcrosses and F₂ crosses, Cry1Ac resistance favored emergence of more females than males on untreated diet. The normal larval period and the body weight (normal larval growth) were the dominant traits associated with susceptible strain as contrast to longer larval period and the lower body weight (slow growth) associated with resistance trait. Further, inheritance of larval period in F₂ and backcross progeny suggested existence of a major resistant gene or a set of tightly linked loci associated with Cry1Ac sensitivity.     

Epistasis in maize (Zea mays L.)

Summary Three flint and three dent maize (Zea mays L.) inbred lines, their possible F₁ crosses, F₂ and backcross progenies, and all possible three-way crosses were evaluated in a three-year experiment for yield, ear moisture, and plant height. The purpose was to estimate genetic parameters in European breeding materials from (i) generation means analysis, (ii) diallel analysis of generation means, and (iii) analysis of F₁ and three-way cross hybrids. Method (i) was based on the F-metric model and methods (ii) and (iii) on the Eberhart-Gardner (1966) genetic model; both models extended for heterotic maternal effects.Differences among generation means for yield and plant height were mainly attributable to dominance effects. Epistatic effects were significantly different from zero in a few crosses and considerably reduced heterosis in both traits. Additive x additive and domiance x dominance effects for yield were consistently positive and negative, respectively. Significant maternal effects were established to the advantage of generations with a heterozygous seed parent. In the diallel analysis, mean squares for dominance effects were greater than for additive effects for yield and plant height but smaller for ear moisture. Though significant for yield and plant height, epistatic variation was small compared to additive and dominance variation. Estimates of additive x additive epistasis for yield were significantly negative in 11 of 15 crosses, suggesting that advantageous gene combinations in the lines had been disrupted by recombination in the segregating generations. The analysis of hybrids supported the above findings regarding the analysis of variance. However, the estimates of additive x additive epistasis for yield were considerably smaller and only minimally correlated with those from the diallel analysis. Use of noninbred materials as opposed to materials with different levels of inbreeding is considered the main reason for the discrepancies in the results.     

Diet‐Dependent Genetic and Genomic Imprinting Effects on Obesity in Mice

Although the current obesity epidemic is of environmental origin, there is substantial genetic variation in individual response to an obesogenic environment. In this study, we perform a genome‐wide scan for quantitative trait loci (QTLs) affecting obesity per se, or an obese response to a high‐fat diet in mice from the LG/J by SM/J Advanced Intercross (AI) Line (Wustl:LG, SM‐G16). A total of 1,002 animals from 78 F₁₆ full sibships were weaned at 3 weeks of age and half of each litter placed on high‐ and low‐fat diets. Animals remained on the diet until 20 weeks of age when they were necropsied and the weights of the reproductive, kidney, mesenteric, and inguinal fat depots were recorded. Effects on these phenotypes, along with total fat depot weight and carcass weight at necropsy, were mapped across the genome using 1,402 autosomal single‐nucleotide polymorphism (SNP) markers. Haplotypes were reconstructed and additive, dominance, and imprinting genotype scores were derived every 1 cM along the F₁₆ map. Analysis was performed using a mixed model with additive, dominance, and imprinting genotype scores, their interactions with sex, diet, and with sex‐by‐diet as fixed effects and with family and its interaction with sex, diet, and sex‐by‐diet as random effects. We discovered 95 trait‐specific QTLs mapping to 40 locations. Most QTLs had additive effects with dominance and imprinting effects occurring at two‐thirds of the loci. Nearly every locus interacted with sex and/or diet in important ways demonstrating that gene effects are primarily context dependent, changing depending on sex and/or diet.     

Generation of polymorphic markers tightly linked to the thymus enlargement loci by phenotype-directed representational difference analysis

To obtain genetic markers linked to a specific genetic locus, genomic subtraction with a DNA pool of backcross or F₂ intercross animals with a specific genotype at the locus is known to be effective. To determine whether the pooling strategy is also effective for isolation of genetic markers linked to a quantitative phenotype that can potentially be controlled by multiple genetic loci, we tested the ability of representational difference analysis (RDA) to isolate genetic markers linked to the thymus enlargement observed in the BUF/Mna (BUF) rat. This is known to be controlled by single major and minor genes, Ten1 and Ten2, on Chromosomes (Chrs) 1 and 13, respectively, both of which have dose effects on the normal WKY/Ncj (WKY) allele. DNA from an inbred WKY rat was used as the tester, and the driver was prepared from a DNA pool of 12 (WKY × BUF)F₁× BUF backcross rats with high thymus ratios (thymus weight/body weight), expected to have dominance of the BUF allele in the responsible loci. By two RDA series with the restriction enzymes BglII and BamHI, respectively, 28 polymorphic markers were isolated, and 8 of them were shown to be linked to Ten1, and one to Ten2. One of the 8 markers linked to Ten1 demonstrated no recombination in 18 rats with high thymus ratios. RDA with a DNA pool based on a quantitative phenotype (phenotype-directed RDA) can thus be considered an efficient approach for direct isolation of polymorphic markers linked to a quantitative trait. Received: 15 April 1997 / Accepted: 8 May 1998     

An energetic profile of Corynebacterium glutamicum underpinned by measured biomass yield on ATP

The supply and usage of energetic cofactors in metabolism is a central concern for systems metabolic engineering, particularly in case of energy intensive products. One of the most important parameters for systems wide balancing of energetic cofactors is the ATP requirement for biomass formation Y_ATP/Biomass. Despite its fundamental importance, Y_ATP/Biomass values for non-fermentative organisms are still rough estimates deduced from theoretical considerations. For the first time, we present an approach for the experimental determination of Y_ATP/Biomass using comparative ¹³C metabolic flux analysis (¹³C MFA) of a wild type strain and an ATP synthase knockout mutant. We show that the energetic profile of a cell can then be deduced from a genome wide stoichiometric model and experimental maintenance data. Particularly, the contributions of substrate level phosphorylation (SLP) and electron transport phosphorylation (ETP) to ATP generation become available which enables the overall energetic efficiency of a cell to be characterized. As a model organism, the industrial platform organism Corynebacterium glutamicum is used. C. glutamicum uses a respiratory type of energy metabolism, implying that ATP can be synthesized either by SLP or by ETP with the membrane-bound F₁F_O-ATP synthase using the proton motive force (pmf) as driving force. The presence of two terminal oxidases, which differ in their proton translocation efficiency by a factor of three, further complicates energy balancing for this organism. By integration of experimental data and network models, we show that in the wild type SLP and ETP contribute equally to ATP generation. Thus, the role of ETP in respiring bacteria may have been overrated in the past. Remarkably, in the genome wide setting 65% of the pmf is actually not used for ATP synthesis. However, it turns out that, compared to other organisms C. glutamicum still uses its energy budget rather efficiently.     

Erythrocyte isozymes of phosphofructokinase in genetically high- and low-2,3-diphosphoglycerate rats

A major locus (Dpg) with two alleles (d and D) controls erythrocyte 2,3-diphosphoglycerate (DPG) levels in Long-Evans rats and is closely linked to a locus (Hbb) determining a hemoglobin electrophoretic polymorphism. Glycolytic intermediate levels and phosphofructokinase (PFK) kinetic studies suggest that in vivo PFK activity differences underlie the differences in DPG levels. We report here chromatographic and immunologic evidence that rat erythrocyte PFK is composed of two isozymes which elute from DEAE-Sephadex at positions identical to those of the isozymes in platelets and liver, respectively. The percentage of platelet-type PFK is significantly (P less than 0.05) smaller in low-DPG (dd) hemolysates than in DD hemolysates regardless of hemoglobin phenotype. When hemolysates were prepared in a stabilizing buffer, PFK specific activity was significantly (P less than 0.005) higher in DD rats. These data suggest that the PFK kinetic differences may result from alterations in the isozyme composition of active PFK.