An improved method for estimating inbreeding depression in pedigrees

Fitness is expected to decrease with inbreeding in proportion to the amount of deleterious genetic variation present in a population. The effect of inbreeding on survivorship is usually modeled as a negative exponential relationship, and this model has been widely used to estimate the amount of deleterious genetic variation in populations. Linear regression has traditionally been used to estimate the parameters of the model, including the number of lethal equivalents. This article describes an alternative method for estimating parameters and their confidence limits: the maximum likelihood approach. The accuracy of regression and maximum likelihood estimates of the number of lethal equivalents is compared through simulation. The maximum likelihood approach is found to be both median unbiased and capable of estimating confidence limits with nearly the stated degree of accuracy, while the linear regression approach is found to be median biased. The significance of this on previous estimates of inbreeding depression is discussed. Zoo Biol 17:481–497, 1998. © 1998 Wiley-Liss, Inc.     

Centrosome and microtubule instability in aging Drosophila cells.

Several cytoskeletal changes are associated with aging which includes alterations in muscle structure leading to muscular atrophy, and weakening of the microtubule network which affects cellular secretion and maintenance of cell shape. Weakening of the microtubule network during meiosis in aging oocytes can result in aneuploidy or trisomic zygotes with increasing maternal age. Imbalances of cytoskeletal organization can lead to disease such as Alzheimer's, muscular disorders, and cancer. Because many cytoskeletal diseases are related to age we investigated the effects of aging on microtubule organization in cell cultures of the Drosophila cell model system (Schneider S-1 and Kc23 cell lines). This cell model is increasingly being used as an alternative system to mammalian cell cultures. Drosophila cells are amenable to genetic manipulations and can be used to identify and manipulate genes which are involved in the aging processes. Immunofluorescence, scanning, and transmission electron microscopy were employed for the analysis of microtubule organizing centers (centrosomes) and microtubules at various times after subculturing cells in fresh medium. Our results reveal that centrosomes and the microtubule network becomes significantly affected in aging cells after 5 days of subculture. At 5-14 days of subculture, 1% abnormal out of 3% mitoses were noted which were clearly distinguishable from freshly subcultured control cells in which 3% of cells undergo normal mitosis with bipolar configurations. Microtubules are also affected in the midbody during cell division. The midbody in aging cells becomes up to 10 times longer when compared with midbodies in freshly subcultured cells. During interphase, microtubules are often disrupted and disorganized, which may indicate improper function related to transport of cell organelles along microtubules. These results are likely to help explain some cytoskeletal disorders and diseases related to aging.     

Major histocompatibility complex variation in the endangered Przewalski's horse.

The major histocompatibility complex (MHC) is a fundamental part of the vertebrate immune system, and the high variability in many MHC genes is thought to play an essential role in recognition of parasites. The Przewalski's horse is extinct in the wild and all the living individuals descend from 13 founders, most of whom were captured around the turn of the century. One of the primary genetic concerns in endangered species is whether they have ample adaptive variation to respond to novel selective factors. In examining 14 Przewalski's horses that are broadly representative of the living animals, we found six different class II DRB major histocompatibility sequences. The sequences showed extensive nonsynonymous variation, concentrated in the putative antigen-binding sites, and little synonymous variation. Individuals had from two to four sequences as determined by single-stranded conformation polymorphism (SSCP) analysis. On the basis of the SSCP data, phylogenetic analysis of the nucleotide sequences, and segregation in a family group, we conclude that four of these sequences are from one gene (although one sequence codes for a nonfunctional allele because it contains a stop codon) and two other sequences are from another gene. The position of the stop codon is at the same amino-acid position as in a closely related sequence from the domestic horse. Because other organisms have extensive variation at homologous loci, the Przewalski's horse may have quite low variation in this important adaptive region.     

Effect of water temperature on the development, release and survival of the triactinomyxon stage of Myxobolus cerebralis in its oligochaete host.

The development of the triactinomyxon stage of Myxobolus cerebralis and release of mature spores from Tubifex tubifex were shown to be temperature dependent. In the present work, the effect of temperature over a range of 5-30 degrees C on the development and release of the triactinomyxon stages of M. cerebralis was studied. Infected T. tubifex stopped releasing triactinomyxon spores 4 days after transfer from 15 degrees C to 25 degrees C or 30 degrees C. Transmission electron microscopic examinations of the tubificids held at 25 degrees C and 30 degrees C for 3 days showed that all developmental stages degenerated and transformed to electron-dense clusters between the gut epithelial cells of T. tubifex. In contrast, tubificid worms held at 5 degrees C and 10 degrees C examined at the same time were heavily infected with many early developmental stages of triactinomyxon. At 15 degrees C, the optimal temperature for development, maturing and mature stages of the parasite were evident. Infected T. tubifex transferred from 15 degrees C to 20 degrees C stopped producing triactinomyxon spores after 15 days. However, 15 days at 20 degrees C was not sufficient to destroy all developmental stages of the parasite. When the tubificid worms were returned to 15 degrees C, the one-cell stages and the binucleate-cell stages resumed normal growth. It was also demonstrated that T. tubifex cured of infection by holding at 30 degrees C for 3 weeks and shifted to 15 degrees C could be re-infected with M. cerebralis spores. The waterborne triactinomyxon spores of M. cerebralis did not appear to be as short-lived as previously reported. More than 60% of experimentally produced waterborne triactinomyxon spores survived and maintained their infectivity for rainbow trout for 15 days at water temperatures up to 15 degrees C. In natural aquatic systems, the triactinomyxon spores may survive and keep their infectivity for periods even longer than 15 days.     

Charge changes in protein evolution

The number of charge changes relative to total amino acid replacements for each of seven protein sequences (cytochrome c, hemoglobin alpha, hemoglobin beta, myoglobin, insulin, and fibrinopeptides A and B) has been studied. This number was compared with the expected value obtained under the assumption of random nucleotide substitution. The results obtained indicate that four proteins--hemoglobin alpha, hemoglobin beta, myoglobin, and insulin--are accumulating charge changes at rates slower than those predicted by a model of random substitution. Cytochrome c and fibrinopeptides A and B are accumulating charge changes at rates similar to those predicted by a random model.     

The molecular basis of alloreactivity in antigen-specific, major histocompatibility complex-restricted T cell clones

We have studied the relationship between major histocompatibility complex (MHC)-restricted antigen recognition and alloreactivity by examining T cell receptor (TCR) alpha and beta gene expression in cytochrome c-specific, Ek alpha:Ek beta (Ek)-restricted helper T cell clones derived from B10.A mice. The clones could be segregated on the basis of four distinct alloreactivity patterns. Clones cross-reactive for three different allogeneic la molecules (As alpha:As beta [As], Ab alpha:Ab beta [Ab], Ek alpha: Eb beta [Eb]) expressed the same V alpha and V beta gene segments, generating the distinct alloreactive specificities via unique V alpha-J alpha and V beta-D beta-J beta joining events. Ek alpha:Es beta (Es)-alloreactive B10.A clones expressed the same V alpha, J alpha, and V beta segments as an Es-restricted, Ek-alloreactive, cytochrome c-specific, H-2-congenic B10.S(9R) clone. This homology between TCRs mediating allorecognition of la molecules and recognition of the same la molecules as restriction elements associated with nominal antigen suggests that MHC-restricted recognition and allorecognition represent differences in the affinity of the TCR-MHC molecule interaction.     

Isolation and characterization of the hatching enzyme from the amphibian,Xenopus laevis

The proteolytic activity released at the time of Xenopus laevis embryo hatching, termed the hatching enzyme, was purified and characterized in terms of its physical and enzymatic properties. Using predominantly isoelectric focusing and preparative ultracentrifugation, the enzyme was purified 2200-fold over the starting crude hatching media. From disc gel electrophoretic experiments, the most highly purified form of the enzyme had two enzymatically active charge isomers present with molecular weights of 62,500. With time, the purified enzyme gave rise to a family of enzymatically active charge isomeric proteins. The enzymatic activity of hatching enzyme toward its ¹²⁵I-labeled natural substrate, the fertilization envelope, was optimal at pH 7.7 and was ionic strength dependent. The enzyme was inhibited by Zn²⁺ and by EDTA. From inhibition by the site-specific reagents diisopropylfluorophosphate and phenylmethylsulfonylfluoride, we concluded that the enzyme was of the serine protease type, although its inhibition by Zn²⁺ and EDTA prevents a clear and unequivocal classification of the protease. This enzyme is different from the hatching enzymes reported in fish and echinoderms, on the basis of size, but it is similar to that described in Rana chensinensis on the basis of size and specificity.     

Evidence that the fertilization envelope blocks sperm entry in eggs of Xenopus laevis: interaction of sperm with isolated envelopes.

Single-celled myxamoebae undergo differentiation into either stalk cells or spore cells during a 24-hr period in Dictyostelium discoideum. This study employed ultramicrochemical techniques and enzymatic cycling to assess the presence of cell-specific events in spore and stalk cells. Freeze-dried sections of one organism were assayed in 0.1 μl of reaction mixture. This method was used to determine the extent of localization of trehalose in spore cells and stalk cells during development.Trehalose was low in the early stages of differentiation to about 20 hr when the level started to increase. In developing spore cells, the trehalose level increased sixfold during the last 5 hr of development. Likewise, the entire stalk contained trehalose when the stalk was first formed. At mature sorocarp, trehalose levels were the same in spores and the apex of the stalk. There was a decreasing gradient of trehalose down the stalk. The bottom one-fourth of the stalk was devoid of this disaccharide. Therefore, trehalose was degraded from an area of the stalk where it was localized earlier in development.The results of this investigation negate the assumption that trehalose is never present in the stalk. Although trehalose was found in spore cells, prestalk cells also contained high trehalose levels. The stalk cell-specific trehalose was not retained during differentiation, however, but was apparently degraded in the mature stalk cell.     

Characterization of an alternative exon of the murine T cell receptor beta-chain. Pattern of expression and evolutionary conservation

In this report, we characterize an alternate gene element of the murine TCR beta-chain. First, we have looked at the expression of the alternate exon, C beta 0, in normal T cell clones, as well as in fetal vs adult whole thymus. The C beta 0 exon is expressed in only 1% or less of TCR-beta messages in four of four mature T cell clones examined. C beta 0 is found at 10-fold higher levels in both fetal and adult thymus mRNA. Thus C beta 0 is developmentally regulated by T cells, although expression of the alternate exon is relatively constant from the fetal thymus to the adult thymus. Second, evolutionary conservation of the C beta 0 gene element was studied in both the rat and the human. The rat beta-locus contains a gene element highly homologous to the mouse C beta 0 gene, but the rat C beta 0 gene contains mutations in both splice sites that probably prevent the gene element from being spliced into mRNA. We have also sequenced the first exon of rat C beta 1, and find that the C beta 0 exon and the intron around C beta 0 are conserved between rat and mouse to the same level as the C beta 1 coding region. The intron around C beta 1, in contrast, shows the decrease in conservation between the two species that is expected for a noncoding region. Analysis of the putative C beta 0-containing region in the human reveals no sequences homologous to the C beta 0 gene element. Because the mouse is the only species that has conserved a functional C beta 0 gene, we conclude that the C beta 0 exon does not play a general role in T cell development.