The relative contributions of newly synthesized and stored messages to Hl histone synthesis in interspecies hybrid echinoid embryos.

We have measured the ratio of incorporation of 3H-lysine into the maternal and paternal forms of Hl histones synthesized by the interordinal hybrid embryo which results from the fertilization of sand dollar eggs with sea urchin sperm. This ratio has been used to calculate the relative contributions of newly transcribed and stored Hl histones mRNA to the synthesis of Hl histone at five different stages of development. These calculations are based on the assumption that histone mRNA of both parental types is transcribed with equal efficiency from the genome and that these RNAs are translated with equal efficiency in the cytoplasm of the hybrid embryos. On this basis, we have estimated that the contribution of new mRNA represents 80% of total Hl histone synthesis at the 16--32 cell stage, 54% at the hatching blastula stage, 40% at the mesenchyme blastula stage, and 100% after gastrulation. These data are discussed in the light of presently known parameters of histone and histone mRNA synthesis in echinoderm embryos.     

The Relative Contributions of Newly Synthesized and Stored Messages to Hl Histone Synthesis in Interspecies Hybrid Echinoid Embryos

We have measured the ratio of incoropation of ³H-lysine into the maternal and paternal forms of Hl histones synthesized by the interordinal hybrid embryo which results from the fertilization of sand dollar eggs with sea urchin sperm. This ratio has been used to calculate the relative contributions of newly transcribed and stored Hl histone mRNA to the synthesis of Hl histone at five different stages of development. These calculations are based on the assumption that histone mRNA of both parental types is transcribed with equal efficiency from the genome and that these RNAs are translated with equal efficiency in the cytoplasm of the hybrid embryos. On this basis, we have estimated that the contribution of new mRNA respresents 80% of total Hl histone synthesis at the 16–32 cell stage, 54% at the hatching blastula stage, 40% at the mesenchyme blastula stage, and 100% after gastrulation.
These data are discussed in the light of presently known parameters of histone and histone mRNA synthesis in echinoderm embryos.     

Improvement of the developmental capacity of oocytes from prepubertal cattle by intraovarian insulin-like growth factor-I application

The developmental potential of oocytes from prepubertal cattle is decreased, compared with those from their adult counterparts. The aim of the present study was to improve the developmental capacity of oocytes from prepubertal cattle by either systemic application of recombinant bovine somatotropin (rbST) or intraovarian injection of insulin-like growth factor-I (IGF-I). Blastocyst yields and the mRNA expression pattern (relative abundance, RA) of three putative marker genes (i.e., glucose transporter-1, Glut-1; eukaryotic translation initiation factor-1A, eIF1A, and upstream binding factor, UBF) were selected as criteria to determine the success of the treatments. At 6-7 mo of age, 30 healthy Holstein calves were randomly assigned to three experimental groups. The first group served as control and received an intraovarian injection of 0.6 ml acetic acid. The second group received a single s.c. injection of 500 mg of rbST. The third group received an intraovarian injection of 6 microg recombinant human IGF-I. During the following 2 wk, follicles were aspirated four times via transvaginal ultrasound-guided technology. All animals were i.m. injected with 60 mg FSH 48 h prior to each aspiration. The treatments were repeated with the same animals at 9-10, 11-12, and 14-15 mo of age. For comparison, five adult cows were each i.m. injected with 100 mg FSH and underwent oocyte retrieval. The proportion of oocytes considered to be developmentally competent was higher in cows than calves (65% vs. 58%, 50%, 52%) for the control, rbST, and IGF-I groups, respectively. The rate of blastocysts was similar in IGF-I-treated calves and cows (28% and 25%) and was higher (P 相似文献   

Developmental competence of oocytes from prepubertal Bos indicus crossbred cattle

The aim of the present study was to evaluate the effect of age on embryogenic competence of oocytes recovered from Bos indicus crossbred calves and heifers. Cumulus-oocyte complexes (COCs) were collected from 4- to 7-month-old calves (experiment 1) and from 9- to 14-month-old heifers (experiment 2) during processing at an abattoir. In both experiments cow COCs were used as control. COCs were in vitro matured and fertilized, and the presumptive zygotes co-cultured with cumulus cells until 224 h post insemination (hpi). In experiment 1, the development rate during the first 68-72 hpi was similar (P > 0.05) between embryos derived from calves and cows. Fewer embryos from calves developed to the blastocyst stage, resulting in a lesser blastocyst production as well as lesser hatching rate (P < 0.05). The embryo development after blastocyst stage was, nevertheless, similar (P > 0.05) between blastocysts derived from calves and cows, suggesting that the development after blastocoele formation is not compromised in embryos derived from calves. In experiment 2, there were no differences (P > 0.05) on cleavage, blastocyst and hatching rates between embryos derived from prepubertal heifers and cows. The rate of blastocyst development until hatching was also similar (P > 0.05). These results indicate that oocytes from 9- to 14-month-old B. indicus crossbred heifers have the same developmental competence as oocytes derived from cows, while ocytes derived from 4- to 7-month-old B. indicus crossbred calves are less competent in developing to the blastocyst stage in vitro. It suggests that oocyte competence in B. indicus crossbred cattle is achieved around 9-14 months of age.     

In vitro development and nutrient uptake by embryos derived from oocytes of pre‐pubertal and adult cows

The present study compared the developmental potential and uptake of nutrients by embryos from pre‐pubertal and adult cows. Oocytes retrieved from ovaries of 5 to 7 month old calves and adult cows were matured and fertilized in vitro. Embryos were cultured in SOFaa to the blastocyst stage (7 days post‐insemination). At successive stages of development, rates of glucose and pyruvate uptake were measured non‐invasively by microfluorescence for individual embryos. Fertilization was equivalent in embryos from pre‐pubertal and adult cows (P > 0.05), however development to blastocyst was significantly lower in embryos from pre‐pubertal cows (9.8% versus 33.7%, respectively; P < 0.05). Total blastocyst cell number was not different between pre‐pubertal and adult material (P > 0.05). Glucose uptake was exponential (pre‐pubertal, r = 0.82; adult, r = 0.82; P < 0.05), with an increase in uptake beyond the 8‐ to 16‐cell stage. Glucose uptake was significantly lower in embryos from pre‐pubertal cows at the 2‐ to 4‐cell stages (1.5 versus 3.0 pmoles/embryo/hr; P < 0.05), but was equivalent to the adult cow at all other stages of development (P > 0.05). Pyruvate uptake was low until the blastocyst stage. Pyruvate uptake by embryos from pre‐pubertal cows was significantly different to adult cows at the 1‐cell stage (2.7 versus 4.6 pmoles/embryo/hr, respectively; P < 0.05) and 2‐ to 4‐cell stages (4.9 versus 3.6 pmoles/embryo/hr, respectively; P < 0.05). Pyruvate uptake was equivalent in the two groups in the later stages of development (P > 0.05). Perturbations in the uptake of nutrients by embryos from pre‐pubertal cows were most likely due to the presence of a high proportion of developmentally incompetent embryos. Further, embryos from pre‐pubertal cows that did develop to the blastocyst were as viable as blastocysts from adult cows with respect to nutrient uptakes and total cell number. Mol. Reprod. Dev. 54:49–56, 1999. © 1999 Wiley‐Liss, Inc.     

The integration of the transfer of frozen embryos with artificial insemination in a commercial beef herd

This trial was designed to examine the integration of the transfer of frozen embryos and artificial insemination (A.I.) in a commercial herd of beef cows. Embryos were collected nonsurgically from 15 superovulated cows and all embryos judged viable (n = 69) were frozen in 0.25 ml plastic A.I. straws. Glycerol was used as a cryoprotectant and the embryos were frozen with omission of the traditional "seeding" step. On three consecutive days immediately preceding the onset of a 60-day breeding season, 54 embryos were transferred to multiparous cows with calves at foot. The remaining 82 cows in the same herd were used as controls. Cows receiving embryos were maintained under observation, but not inseminated for 21 days, after which cows exhibiting signs of estrus were inseminated up to Day 60. Cows in the control group were inseminated at observed estrus throughout the 60-day period. The overall pregnancy rate for the experimental and control groups did not differ (77.8 % and 73.2 % respectively). Of the experimental cows, 24.1 % conceived to the embryo transfer, and 53.7 % to A.I. The mean calving to conception interval for the experimental cows was 96.3 days (median 101 days) and for the control cows it was 92.3 days (median 88 days). The calving pattern in the experimental cows was biphasic, calvings resulting from embryo transfer of A.I. accounting for the two peaks. Reconception rates in the following breeding season were not different between the embryo transfer or A.I. groups or between experimental and control herds. Weaning masses of calves born of embryo transfer were significantly higher than the other groups, but calves resulting from A.I. in the experimental herd were not different from calves in the control herd. It was concluded that the transfer of frozen embryos could be successfully integrated into an A.I. program with a limited breeding season without detrimentally affecting the overall reproductive performance of the recipient herd.     

Birth of large calves that developed from in vitro-derived bovine embryos

High birth weights were observed in calves that developed from bovine embryos produced by in vitro maturation (IVM) and in vitro fertilization (IVF) procedures. After IVM and IVF, embryos were either co-cultured in vitro with oviductal epithelial cells or transferred into the sheep oviduct for development to the blastocyst stage. Blastocysts were transferred to the reproductive tracts of recipient heifers and cows for development to term. Birth weights and gestation periods were compared between calves that developed from in vitro-derived embryos and calves born after artificial insemination (AI) of cows in the herd from which recipient females were selected. Gestation periods were not different among the groups (P > 0.05), but calves that developed from IVM/IVF-derived embryos co-cultured in vitro were larger at birth than calves born from IVM/IVF-derived embryos that developed into blastocysts in the sheep oviduct and calves born from AI (P < 0.001). Dystocia and calf mortality were associated with large calf size at birth. These data were collected from an experiment designed for other purposes, and confounding variables and small sample size could have influenced the observed differences in birth weights. Nevertheless, the extreme birth weights of some calves suggest that abnormal prenatal growth occurs in some IVM/IVF-derived bovine embryos and that conditions for co-culture to the blastocyst stage may exacerbate the problem.     

Production of live calves derived from embryonic stem-like cells aggregated with tetraploid embryos

To date, cloned farm animals have been produced by nuclear transfer from embryonic, fetal, and adult cell types. However, mice completely derived from embryonic stem (ES) cells have been produced by aggregation with tetraploid embryos. The objective of the present study was to generate offspring completely derived from bovine ES-like cells. ES-like cells isolated from the inner cell mass of in vitro-produced embryos were aggregated with tetraploid bovine embryos generated by electrofusion at the 2-cell stage. A total of 77 embryo aggregates produced by coculture of two 8-cell-stage tetraploid embryos and a clump of ES-like cells were cultured in vitro. Twenty-eight of the aggregates developed to the blastocyst stage, and 12 of these were transferred to recipient cows. Six calves representing 2 singletons and 2 sets of twins were produced from the transfer of the chimeric embryos. Microsatellite analysis for the 6 calves demonstrated that one calf was chimeric in the hair roots and the another was chimeric in the liver. However, unfortunately, both of these calves died shortly after birth. Two of the placentae from the remaining pregnancies were also chimeric. These results indicate that the bovine ES-like cells used in these studies were able to contribute to development.     

Nuclear transfer in cattle using colostrum-derived mammary gland epithelial cells and ear-derived fibroblast cells

To assess the developmental potential of nuclear transfer embryos in cattle using mammary gland epithelial (MGE) cells derived from the colostrum, we compared the effectiveness of cloning using those cells and fibroblast cells derived from the ear. The fusion rate of the enucleated oocytes with fibroblast cells (75 +/- 4%) was significantly higher than that with MGE cells (56 +/- 7%, P<0.05). There were no significant differences in the cleavage rate (85 +/- 3% vs. 91+/- 2%) or in the developmental rate to the blastocyst stage (35 +/- 6% vs. 35 +/- 5%) using MGE cells vs. fibroblast cells as donor nuclei (P>0.05). After transfer of blastocysts derived from nuclear transfer embryos produced using MGE cells and fibroblast cells, 13% (4/31) and 16% (6/37) of recipient heifers were pregnant on Day 42 as assessed by ultrasonography, respectively. Two of the 4 and 4 of the 6 recipients of embryos with MGE cell- and fibroblast cell-derived nuclei, respectively, aborted within 150 days of pregnancy. Four live female calves were obtained from MGE cells or fibroblast cells. However, one died from internal hemorrhage of the arteria umbilicalis. The other three calves were normal and healthy. There were no differences in the pregnancy rate or calving rate when using MGE cells vs. fibroblast cells. Microsatellite DNA analyses confirmed that the cloned calves were genetically identical to the donor cows and different from the recipient heifers. We conclude that colostrum-derived MGE cells have the developmental potential to term by nuclear transfer, and the efficiency of development of those cloned embryos was the same as that of embryos obtained using fibroblast cells as donor nuclei, although there was a significant difference in the fusion rate. This method using MGE cells derived from colostrum, which is obtained easily and safely from live adult cows, is more advantageous for cloning with somatic cells.     

ADP-ribosylation of nuclear proteins is increased by phenobarbital. Identification of the ADP-ribosylated histone fractions in rat liver nuclei

Changes in the ADP-ribosylation of total proteins and purified histones of rat liver nuclei after phenobarbital treatment (80 mg/kg, 24 h) have been studied. The [32P]NAD incorporation into total trichloroacetic acid precipitated proteins, in histone Hl and in core histones was evaluated, the specific radioactivities increasing 150, 40 and 8%, respectively. Histones Hl and H2B were the best ADP-ribose acceptors. Histone H4 did not show any 32P incorporation, as revealed by autoradiography after SDS-PAGE of the purified histones, in either the control or phenobarbital treated rats. Possible involvement of ADP-ribosylation of nuclear proteins in the adaptative response of liver to phenobarbital is discussed.     

Behaviour of free-ranging beef cows and calves

The aim of this project was to describe the behaviour of free-ranging cows and calves after birth and during growth to the age of 6 months. Ten bull and 10 heifer calves were followed from birth until first suckling. Calves were observed to record their position in the field once a day until 10 days of age. Focal observations of 5 bull and 5 heifer calves were made from 27 to 167 days of age.

Of the cows studied, 2 separated completely from the herd at calving. The calving sites were randomly distributed in the area available. After birth all cows licked their calves. The amount of licking between 0 and 30 min was significantly greater than that between 30 and 60 min after birth. The duration of the first suckling was significantly longer for heifer calves than for bull calves. Eleven of 17 calves changed area during the first day after birth. The duration of cows licking calves did not change significantly from 27 to 167 days of age, and was not correlated to duration of licking immediately after birth. Suckling frequency per hour, suckling time per hour and duration of each suckling did not change significantly from 27 to 167 days of age. Bull calves from 27 to 167 days of age had a significantly higher frequency than heifer calves of sniffings towards adult cows other than the mother and a significantly higher frequency of mountings of adult cows. Cows and calves spent more time together when the calf was a female than when it was a male, and more time when the weaning weight was low than when it was high.     

Cloning of calves from various somatic cell types of male and female adult, newborn and fetal cows

Twenty-four calves were cloned from six somatic cell types of female and male adult, newborn and fetal cows. The clones were derived from female cumulus (n = 3), oviduct (n = 2) and uterine (n = 2) cells, female and male skin cells (n = 10), and male ear (n = 5) and liver (n = 2) cells. On the basis of the number of cloned embryos transferred (n = 172) to surrogate cows, the overall rate of success was 14%, but based on the number of surrogate mothers that became pregnant (n = 50), the success rate was 48%. Cell nuclei from uterus, ear and liver cells, which have not been tested previously, developed into newborn calves after nuclear transfer into enucleated oocytes. To date, seven female and six male calves have survived: six of the females were from adult cells (cumulus (n = 3), oviduct (n = 2) and skin (n = 1) cells) and one was from newborn skin cells, whereas the male calves were derived from adult ear cells (n = 3), newborn liver and skin cells (n = 2), and fetal cells (n = 1). Clones derived from adult cells frequently aborted in the later stages of pregnancy and calves developing to term showed a higher number of abnormalities than did those derived from newborn or fetal cells. The telomeric DNA lengths in the ear cells of three male calves cloned from the ear cells of a bull aged 10 years were similar to those of the original bull. However, the telomeric DNA lengths from the white blood cells of the clones, although similar to those in an age-matched control, were shorter than those of the original bull, which indicates that telomeric shortening varies among tissues.     

Postnatal changes in 2,3-diphosphoglycerate (2,3-DPG) content of calf erythrocytes

In 82 calves, 22 adult cows and 10 fetuses the 2,3-DPG level was determined in the erythrocytes. The lowest level was found in cows (1.13 microM/g haemoglobin, on the average), and in calves aged 35 days or more. In the foetuses the mean 2,3-DPG concentration in the erythrocytes was 4.98 microM/g Hb and it was higher that that in the erythrocytes of cows, the oldest foetuses and calves during the first two days of postnatal life. During 5 weeks of postnatal life the changes taking place in 2,3-DPG concentration could be divided into two periods: period I or the period of increase covering the first 6 days of life, with a characteristic rise in the concentration of this component from 1.37 to 15.80 microM/g Hb, and period II or the period of decrease lasting from the 6th to the 35th day of life. In period II two phases could be discerned, the first phase lasting from the 6th to the 10th day with a steep fall of 2,3-DPG level from 15.80 to 4.58 microM/g Hb, and the second phase from the 10th to the 35th day of life in which the level of 2,3-DPG reached slowly the value found in adult cows. A comparison of oxygen affinity of haemoglobin in calves aged 6 days, which was composed of about 80% of fetal haemoglobin and about 20% of adult haemoglobin, and in adult cows, which contained exclusively adult haemoglobin, showed that the oxygen-binding capacity of haemoglobin was lower in calves.     

Biochemical and developmental evidence that ooplasmic maturation of prepubertal bovine oocytes is compromised

Our previous studies have shown that oocytes collected from prepubertal calves lack developmental competence. The overall objective of this study was to assess causes by comparing biochemical and physiologic changes during in vitro maturation of oocytes collected from ovaries of adult cattle at slaughter and from superstimulated calves (<6 mo old) by either laporotomy or ultrasound-guided follicular aspiration. Activity and/or concentrations of maturation-promoting factor (MPF), mitogen-activated protein kinase (MAPK), and inositol 1,4,5-trisphosphate receptor (IP(3)R) were determined by measuring phosphorylation of histone H-1 kinase, phosphorylation of myelin basic protein, or Western blotting, respectively, and were compared between oocytes collected from calves and for those collected from cows. The activities of MPF and MAPK and the relative amount of IP(3)R were significantly lower in calf oocytes. The physiologic significance of these observations was determined by assessing the developmental potential of embryos derived by reciprocal transfer of metaphase II (M-II) chromosomes between cow and calf ooplasts and transfer of adult cumulus cells (G0/G1) into cow and calf ooplasts. Procedural controls consisted of transfer of M-II between adult oocytes and parthenogenic activation of adult and calf oocytes. Adult parthenogenically activated oocytes cleaved and developed to blastocysts at a higher rate than did similarly activated calf oocytes (42.1% vs. 3.4%, P < 0.05). Cleavage was also higher in reciprocal M-II transfer embryos containing adult ooplasm (46.2% vs. 12.0%, P < 0.05). Cleavage (66.7% vs. 21.9%, P < 0.05) and development to blastocyst (20.1% vs. 4.8%, P < 0.05) of nuclear transfer embryos reconstructed from adult cumulus cells was higher after transfer to adult ooplasts. Collectively, these results support the hypothesis that lack of developmental competence of calf oocytes is due to their failure or inability to complete ooplasmic maturation.     

Birth of double-muscled Belgian Blue calves after transfer of in vitro produced embryos into dairy cattle

The possible application of the bovine in vitro fertilization technique for economical beef production was evaluated by transferring in vitro produced Belgian Blue embryos to synchronized dairy cows and heifers. In total, 4167 oocytes, collected in the slaughterhouse from double-muscled Belgian Blue cows, were matured in vitro. Frozen-thawed semen from 3 Belgian Blue bulls was used for in vitro fertilization. Zygotes were cultured in B(2) + 10% estrous cow serum together with oviductal cells at 39 degrees C in 5% CO(2) in air. After 7 days, 576 (13.8%) transferable embryos were obtained. One hundred and eighteen of the most advanced embryos were selected for fresh transfer into 90 recipients. Some of the remaining embryos were frozen using conventional methods. After fresh transfer, 50 recipients (55.6%) had elevated progesterone at day 23. Thirty cows (33.3%) calved after a mean gestation length of 282.8+/-6.0 days and produced 25 single births and 5 twins. The sex ratio was 71.4%. The mean birth weight was 45.1+/-8.3 kg. Three calves were of the conventional type instead of double-muscled and 2 calves died of congenital malformations. After transfer of in vitro produced frozen-thawed Belgian Blue embryos into 27 recipients (1 embryo/recipient), 2 bull calves (7.4%) were born. Bovine embryo production by in vitro techniques could form a low-cost supply of beef calves. However, to render it commercially attractive, selection of sires and dams has to be performed with great care.     

Characteristics of Korean native, Hanwoo, calves produced by transfer of in vitro produced embryos

The main objectives of this investigation were to monitor the birth weight of calves and gestation length following artificial insemination (AI) and transfer of in vivo or in vitro produced Korean native, Hanwoo embryos. Embryos produced in vivo were recovered from uterine flushings of superovulated cows 7 days after AI. Those embryos produced in vitro were co-cultured with cumulus cells for 7-8 days after in vitro fertilization. The birth weights of calves following the transfer of in vitro produced (IVP) embryos were heavier than calves from both of AI- and in vivo-derived embryo transferred calves in both sexes (29.6, 24.1 and 25.2kg, respectively, P<0.05). The IVP calves also had a longer gestation length (293.9, 285.8 and 283.8 days, respectively, P<0.05).     

Influence of carbamoylation on some analytical properties of basic polypeptides

The effect of carbamoylation on the assay or identification of histones and polylysine was investigated. Incubation with sodium cyanate decreased the positive charge on these polypeptides as judged by changes in the binding of methyl orange or the electrophoretic mobility. Histones in chromatin appeared less accessible to carbamoylation than isolated histones. Carbamoylation of proteins under conditions in which there was little or no effect on the Lowry procedure could affect their assay by methods utilizing metachromasia with Coomassie Blue G. The Bradford assay has low sensitivity for Hl histone and polylysine but this can be increased by preincubation with sodium cyanate. More extensive carbamoylation of polylysine caused decreased sensitivity which was the only response seen with core nucleosomal histones and bovine serum albumin when preincubated with sodium cyanate. It was concluded that the sensitivity for Hl histone and polylysine in assays dependent on metachromasia with Coomassie Blue G may be changed by factors which decrease the positive charge on these polypeptides.     

Abnormal offspring following in vitro production of bovine preimplantation embryos: a field study

Data on 944 calves from 2228 in vitro-produced (IVP) bovine preimplantation embryos were compared with data on 2787 AI calves born in the same herds in 1995. Bovine preimplantation embryos were produced in vitro following ovum pick up (OPU) from donor cows and pregnant heifers in an open nucleus breeding program. After 7 d of in vitro culture on a BRL cell monolayer in the presence of 10% FCS, frozen-thawed expanded blastocysts and fresh morulae to expanded blastocysts were transferred into recipient heifers and cows at 119 contracted farms throughout the Netherlands. The pregnancy rate, as confirmed by palpation per rectum between 90 and 150 d after transfer was 43.5% for both fresh and frozen embryos. Data on IVP and AI calves were registered by the farmers. The percentage of calves with a congenital malformation and the percentage of male calves were related to the total number of calves born. Gestation length, birth weight (measured by a balance), perinatal mortality and ease of calving were analyzed in a subdataset (699 IVP and 2543 AI calves, respectively) by a comparative analysis of variance (ANOVA). The ANOVA model included herd, month of calving, sire nested within AI or IVP, parity and breed of the inseminated cow/embryo recipient, sex of calf, type of calf (AI or IVP) and two-way interactions between type of calf and sex, parity and breed. The percentage of calves with congenital malformations was 3.2% and 0.7% for IVP and AI calves, respectively. An increased incidence of hydro-allantois and abnormal spinal cords and limbs was observed in IVP calves. The percentage of male calves was significantly different between IVP and AI, 55.5% and 48.9%, respectively (Chi-square, 1 degree of freedom, P < 0.05). On the average, IVP calves showed a significant increase of birth weight by 10% (4-5 kg), a 3-d longer gestation period, 2.4% more perinatal mortality and a more difficult calving process compared to AI calves (P < 0.05). From these results it is concluded that calves produced by IVP deviate significantly from calves produced by AI.     

Gel electrophoretic analysis of histones in lens epithelium, lens fiber, liver, brain, and erythrocytes of late chick embryos.

Histones from 19-day-old chick embryo lens epithelium, lens fibers, liver, brain, and erythrocytes were electrophoresed in polyacrylamide gels using buffers containing sodium dodecylsulfate, acetic acid urea, or mixtures of Triton X-100 acetic acid urea. In the last two buffer systems, histone bands were characterized by their apparent molecular weights determined by electrophoresis in the second dimension in sodium dodecylsulfate containing polyacrylamide gels. From the densitograms of the stained gels, the relative proportion of protein in different histone bands was estimated. With the exception of the erythrocyte-specific histone H5, all histones from different tissues examined at any of the gel systems migrated with the same mobilities. In lens epithelium and lens fibers, all histones were present in identical proportions. As compared to liver and brain, the total amount of histone Hl was significantly lower in lens cells and erythrocytes, possibly reflecting differences between the differentiated states. However, no tissue-specific differences were found in the relative distribution of histone Hl I and Hl II among lens epithelium, lens fiber, liver and, brain, but a threefold higher Hl I : Hl II ratio (0.5--0.7) was found in erythrocytes.     

Birth weight and birth rate of heavy calves conceived by transfer of in vitro or in vivo produced bovine embryos

The aim of this study was to evaluate the difference in birth weight and gestation length between Japanese Black calves obtained from transfer of bovine embryos produced in vitro (IVP) and those developed in vivo (IVD). An additional objective was to clarify the sire effect on birth weight and gestation length and to examine the birth rate of heavier calves. Two Japanese Black bulls breed at our experimental station were used as a semen source for production of IVP and IVD embryos. Thirty-eight Japanese Black heifers and cows of various genetic backgrounds were used as embryo donors for IVD embryos. Ovaries for IVP embryos were collected at random at a local slaughterhouse from Japanese Black cattle of various genetic backgrounds. IVP embryos were produced using co-culturing with cumulus cells in 5% CS+TCM 199. Both the IVD and IVP embryos were transferred non-surgically to Holstein recipients on day 7+/-1 of estrous cycle. In this study, the birth weights and gestation lengths of half-sib single calves for bull A and B were analyzed.The numbers of single calves born by transfer of IVP and IVD embryos for bull A and B were 133 and 121, 243 and 465, respectively. The birth weight of the IVP calves was significantly higher (P<0.01) than that of the IVD (bull A: 31.0+/-0.4 kg versus 27.2+/-0.4 kg and bull B: 29.9+/-0.6 kg versus 26.6+/-0.2 kg). Gestation length of the IVP calves for bull A was significantly longer (P<0.01) than that of the IVD (291.9+/-0.9 days versus 283.6+/-0.5 days). However, for bull B, there were no differences in gestation length between the IVP and IVD calves (285.9+/-0.7 days versus 286.2+/-0.3 days). These results clearly indicated that IVP calves had heavier birth weights than IVD calves but that the average gestation length of IVP calves was not always longer than that of IVD calves. Furthermore, the birth rate of heavier calves and the incidence of stillbirth and perinatal mortality up to 48 h post partum in IVP calves (bull A: 11.3%, bull B: 7.8%) were greater (P<0.05) than those in IVD calves from both bulls (bull A: 4.1%, bull B: 3.7%).