Limb regeneration in Xenopus laevis froglet

Limb regeneration in amphibians is a representative process of epimorphosis. This type of organ regeneration, in which a mass of undifferentiated cells referred to as the "blastema" proliferate to restore the lost part of the amputated organ, is distinct from morphallaxis as observed, for instance, in Hydra, in which rearrangement of pre-existing cells and tissues mainly contribute to regeneration. In contrast to complete limb regeneration in urodele amphibians, limb regeneration in Xenopus, an anuran amphibian, is restricted. In this review of some aspects regarding adult limb regeneration in Xenopus laevis, we suggest that limb regeneration in adult Xenopus, which is pattern/tissue deficient, also represents epimorphosis.     

Protamine polymorphism in Xenopus laevis laevis

Protamines from individual frogs of the subspecies Xenopus laevis laevis were compared by electrophoresis on polyacrylamide gels containing acetic acid, urea, and Triton X-100 to determine if the expression of protamine genes differs among individuals. Two electrophoretic bands, SP2a and SP2b, appeared to be expressed as allelic variants. Of 33 frogs, 19 expressed only SP2a, 11 expressed both SP2a and SP2b, and three expressed only SP2b. Electrophoretic analysis of partial V8 protease digests could not distinguish the peptides released from SP2a and SP2b. Differences in sperm development between individuals were not detected by light or electron microscopy. The results suggest that protamine polymorphism can exist among individuals of a species without an apparent effect on sperm development or sperm function.     

In Vivo and in Vitro Experimental Analysis of Lens Regeneration in Larval Xenopus laevis

After lentectomy of larval Xenopus laevis , the outer cornea undergoes tissue transformation resulting in formation of a new lens. This lens regeneration is triggered and sustained by neural retina. In the present study, lens-forming transformation of the outer cornea was completed in vitro when the outer cornea was cultured within the lentectomized eye-cup. Well-differentiated lens fiber cells, which showed positive immunofluorescence for total crystallins, were also formed when the outer cornea was cultivated with the retina. No lens tissue was formed when the cornea was cultured alone. Lens-forming transformation, originating from the cornea three and five days after lentectomy, completely regressed when the tissue was isolated in vitro . Fom the present and previous findings, we concluded that, the interaction of corneal cells with the retina plays a decisive role in lens regeneration in situ .     

Long-term starvation in Xenopus laevis Daudin--II. Effects on several organs

1. The effect of starvation for 12 months on organo-somatic indices, glycogen, protein and water contents of several organs and the Na+/K+ ratio in muscle was studied in the South African clawed toad Xenopus laevis Daudin. 2. The liver- and ovary-somatic index were reduced by 30 and 70% of the initial value after 12 months. Fat bodies had disappeared after approximately 6 months of starvation. The indices of heart and kidney were not changed. 3. Glycogen concentration of the liver, ovaries and muscle were depleted nearly totally during the first half of the experimental time, whereas glycogen in the kidney seemed to be unaffected. 4. Protein concentration increased in the liver, decreased in the muscle and remained constant in the kidney. 5. Starvation caused an increase of the water concentration of the whole animal and different organs, especially at the end of the experiment. 6. The Na+/K+ ratio of the muscle increased significantly after 6 months of starvation and reached a maximum after 10 months.     

Effects of light-deprivation on development of photopositive behavior in Xenopus laevis tadpoles

The development of amphibian sensory systems and behavior is generally considered to proceed normally without reference to sensory experience during embryonic or larval stages. Most of the supporting research, however, has concentrated on the retinotectal (visual) systems of anurans and has ignored behaviors directed by other sensory systems. We demonstrate that early exposure to light is necessary for the development of photopositive behavior in Xenopus laevis tadpoles, a behavior probably directed by the pineal complex. Light-deprivation during the tadpoles' first 10 days of development results in a long-lasting reduction in the tadpoles' light preference. The development of a strong light preference is not influenced by light-deprivation before the tadpoles are 2 days old or after the tadpoles are 10 days old, but light-deprived tadpoles recover a weak light preference after subsequent days of rearing in the light. Lengthening the tadpoles' exposure to light during the first 10 days of development produces increasingly strong light preferences. Considering the important role of the pineal complex in guiding phototactic behaviors in anurans, we suggest that light-deprivation alters photopositive behavior in Xenopus tadpoles by altering the development of the pineal complex.     

Studies on Maturation in Xenopus laevis Oocytes

The following results were obtained: 1) The oxygen comsumption of progesterone-stimulated X. laevis oocytes increases at the time of germinal vesicle (GV) breakdown. 2) Continous treatment with 1 mM KCN, 1 mM and 0.1 mM DNP completely inhibits GV breakdown. 3) Pretreatment experiments with KCN, DNP and cycloheximide show that binding of progesterone to the plasma membrane and the specific hormone receptor requires neither energy, nor protein synthesis. 4) 1 h pulses of DNP (1mM) or cycloheximide (50 mug/ml) were applied, at various time intervals after progesterone treatment: early pulses strongly delay, but do not prevent GV breakdown; late pulses just before GV breakdown induce a number of cytological abnormalities, which ultimately lead to cytolysis. The significance of these results is discussed and the hypothesis that synthesis of the maturation producing factor (MPF) requires both energy and protein synthesis is proposed.     

非洲爪蟾眼的形态发生研究

详细观察和描述了非洲爪蟾Xenopus laevis眼的发生和发育变化过程,并分别对各发育时期视网膜的厚度进行了定量分析.非洲爪蟾眼的发牛开始于眼原基的形成,进而形成视泡;晶状体的发生是在视杯外壁增厚的同时诱导覆盖其上的胚胎外胚层内层增厚,形成预定晶状体板;在视网膜和晶状体共同诱导下,预定角膜上皮变为透明的角膜.在视杯出现之前,预定RPE的厚度由厚变薄,NR层不断地增厚直至结构功能完善.     

Telomere Variation in Xenopus laevis

Eukaryotic telomeres are variable at several levels, from the length of the simple sequence telomeric repeat tract in different cell types to the presence or number of telomere-adjacent DNA sequence elements in different strains or individuals. We have investigated the sequence organization of Xenopus laevis telomeres by use of the vertebrate telomeric repeat (TTAGGG)_n and blot hybridization analysis. The (TTAGGG)_n-hybridizing fragments, which ranged from less than 10 to over 50 kb with frequently cutting enzymes, defined a pattern that was polymorphic between individuals. BAL 31 exonuclease treatment confirmed that these fragments were telomeric. The polymorphic fragments analyzed did not hybridize to 5S RNA sequences, which are telomeric according to in situ hybridization. When telomeric fragments from offspring (whole embryos) were compared to those from the spleens of the parents, the inheritance pattern of some bands was found to be unusual. Furthermore, in one cross, the telomeres of the embryo were shorter than the telomeres of the parents’ spleen, and in another, the male’s testis telomeres were shorter than those of the male’s spleen. Our data are consistent with a model for chromosome behavior that involves a significant amount of DNA rearrangement at telomeres and suggest that length regulation of Xenopus telomeres is different from that observed for Mus spretus and human telomeres.     

Gene-centromere mapping in Xenopus laevis

Gynogenesis was used to map eight loci to their centromeres in Xenopus laevis. Several loci remote from their centromeres were identified. This information may be useful in distinguishing gynogenetic diploid progeny produced by suppression of second polar bodies from gynogenetic diploid progeny homozygous at all loci produced by suppression of first cleavage of gynogenetic haploids.     

Effects of alpha-amanitin on the development of Xenopus (Xenopus laevis Daud.) heart in vitro]

The differentiation of Xenopus heart is studied in vitro, in the presence of alpha-amanitin. The results obtained depend on the concentration of the inhibitor, the length of treatment and the stage of primordium. The mRNA pool assures the differentiation of explants, removed from young stages, for 12 hours. This time is half for the primordia removed from stages greater than 3,5 mm.     

Effects of ethanol on three endogenous membrane conductances present in Xenopus laevis oocytes

The Xenopus oocyte expression and recording system has allowed a detailed analysis of the physiology and pharmacology of neuronal ion channels including their sensitivity to ethanol. It is important however, to ascertain the effects of a particular drug on the channels inherently expressed by oocytes to ensure that drug effects ascribed to the expressed recombinant receptors are manifested solely through those receptors. In this study, the effects of ethanol were determined on three endogenous currents that can be elicited in oocytes and other cells by various manipulations. The inward cation current, IC, was activated by perfusing naive oocytes with a divalent-free recording solution. Ethanol (25-100 mM) modestly inhibited IC with 100 mM ethanol producing a 7-8% inhibition of steady state currents. The store-operated or capacitative calcium current (I(SOC)) was activated in thapsigargin-treated oocytes by switching from a calcium-free solution to one containing 10 mM calcium. In thapsigargin-treated oocytes also injected with EGTA to block calcium-activated chloride currents, ethanol (100 mM) had no effect on the store-operated calcium current. In contrast, ethanol (10-100 mM) dose-dependently inhibited the calcium-dependent chloride current (I(Cl(Ca)) in thapsigargin-treated oocytes. A voltage-jump protocol was used to separate the two components of I(Cl(Ca)), I(Cl-1) and I(Cl-2). Under these conditions, ethanol (100 mM) inhibited I(Cl-1) currents to a greater extent (38%) than it did I(Cl-2) currents (14%). These results show that Xenopus oocytes express endogenous ion channels that are differentially sensitive to ethanol.     

Engineered telomeres in transgenic Xenopus laevis

The expanding roles of telomeres in epigenetic gene regulation, nuclear organization, and human disease have necessitated the establishment of model organisms in which to study telomere function under normal developmental conditions. We present an efficient system for generating numerous vertebrate animals containing engineered telomeres using a Xenopus laevis transgenesis technique. Our results indicate Xenopus zygotes efficiently recognize telomeric repeats at chromosome break points and form telomeric complexes thus generating a new telomere. The resulting transgenic animals progress through normal development and successfully metamorphose into froglets despite the chromosome breakage. Overall, this presents an efficient mechanism for generating engineered telomeres in a vertebrate system and provides an opportunity to investigate epigenetic aspects of telomere function during normal vertebrate development.     

Translational selection on codon usage in Xenopus laevis

A correspondence analysis of codon usage in Xenopus laevis revealed that the first axis is strongly correlated with the base composition at third codon positions. The second axis discriminates between putatively highly expressed genes and the other coding sequences, with expression levels being confirmed by the analysis of Expressed sequence tag frequencies. The comparison of codon usage of the sequences displaying the extreme values on the second axis indicates that several codons are statistically more frequent among the highly expressed (mainly housekeeping) genes. Translational selection appears, therefore, to influence synonymous codon usage in Xenopus.