Insemination of mares with low numbers of either unsexed or sexed spermatozoa.

Two experiments were conducted to determine pregnancy rates in mares inseminated 1) with 5, 25 and 500 x 10(6) progressively motile spermatozoa (pms), or 2) with 25 x 10(6) sex-sorted cells. In Experiment 1, mares were assigned to 1 of 3 treatments: Group 1 (n=20) was inseminated into the uterine body with 500 x 10(6) pms. Group 2 (n=21) and Group 3 (n=20) were inseminated into the tip of the uterine horn ipsilateral to the preovulatory follicle with 25 and 5 x 10(6) pms, respectively. Mares in all 3 groups were inseminated either 40 (n=32) or 34 h (n=29) after GnRH administration. More mares became pregnant when inseminated with 500 x 10(6) (18/20 = 90%) than with 25 x 10(6) pms (12/21 = 57%; P<0.05), but pregnancy rates were similar for mares inseminated with 25 x 10(6) vs 5 x 10(6) pms (7/20 = 35%) (P>0.1). In Experiment 2, mares were assigned to 1 of 2 treatments: Group A (n=11) was inseminated with 25 x 10(6) spermatozoa sorted into X and Y chromosome-bearing populations in a skimmilk extender. Group B (n=10) mares were inseminated similarly except that spermatozoa were sorted into the skimmilk extender + 4% egg yolk. Inseminations were performed 34 h after GnRH administration. Freshly collected semen was incubated in 224 microM Hoechst 33342 at 400 x 10(6) sperm/mL in HBGM-3 for 1 hr at 35 degrees C and then diluted to 100 x 10(6) sperm/mL for sorting. Sperm were sorted by sex using flow cytometer/cell sorters. Spermatozoa were collected at approximately 900 cells/sec into either the extender alone (Group A) or extender + 4% egg yolk (Group B), centrifuged and suspended to 25 x 10 sperm/mL and immediately inseminated. Pregnancy rates were similar (P>0.1) between the sperm treatments (extender alone = 13/10, 30% vs 4% EY + extender = 5/10, 50%). Based on ultrasonography, fetal sex at 60 to 70 d correlated perfectly with the sex of the sperm inseminated, demonstrating that foals of predetermined sex can be obtained following nonsurgical insemination with sexed spermatozoa.

Effects of follicular fluid or progesterone on in vitro maturation of equine oocytes before intracytoplasmic sperm injection with non-sorted and sex-sorted spermatozoa.

In Expt 1, compact cumulus oocyte complexes (COCs) were matured in: (i) control medium (Hepes-buffered TCM-199 with 10% oestrous cow serum (OCS) + oestradiol, LH and FSH); (ii) Hepes-buffered TCM-199 with 20% follicular fluid; or (iii) control medium containing 250 ng progesterone ml(-1). Mature oocytes were collected by transvaginal aspiration as a positive control for the in vitro maturation (IVM) treatments. Oocytes were fertilized by ICSI and cultured in Menezo's B2 + 5% fetal calf serum (FCS). There were no significant differences among IVM treatments. In Expt 2, oocytes with expanded COCs were matured in Hepes-buffered TCM-199 with 10% OCS, oestradiol, LH and FSH with different concentrations of progesterone (0, 50, 250 and 1250 ng ml(-1)). Oocytes were fertilized by ICSI and cultured in a chemically defined medium. The medium containing 1250 ng progesterone ml(-1) resulted in fewer oocytes with a visible first polar body after maturation (P < 0.05), whereas the media containing 0 and 50 ng progesterone ml(-1) resulted in higher development rates to seven- to eight-cell embryos (P < 0.05), compared with media containing 250 or 1250 ng progesterone ml(-1). Six of the resulting morulae were transferred to recipient mares. In addition, oocytes (n=32) from Expt 2 were injected with sex-sorted spermatozoa, obtained by separating X- and Y-bearing spermatozoa with a Cytomation MoFlo flow cytometer/cell sorter. Two embryos resulting from ICSI with X-bearing spermatozoa were transferred to the oviduct of a recipient mare. No pregnancies were established after transfer of embryos in these experiments.

Insemination of heifers with sexed sperm.

Data from inseminating 1,000 heifers consecutively with sexed sperm and 370 heifers with control sperm in 11 small field trials are summarized. Semen was from 22 bulls of unknown fertility of various beef and dairy breeds, and 6 inseminators participated. Freshly collected sperm were sexed using a MoFlo flow cytometer/cell sorter after staining sperm with the DNA-binding dye Hoechst 33342; the principle is that the bovine X chromosome has 3.8% more DNA than the Y chromosome. Accuracy approaching 90% males or females was achieved. There was little difference in pregnancy rates between sexed, unfrozen and sexed, frozen sperm. In 5 of 6 field trials, there was little difference in pregnancy rates between insemination doses of 1.0 to 1.5 x 10(6) versus 3.0 x 10(6) sexed, frozen sperm. In the most recent trials, pregnancy rates with sexed, frozen sperm were within 90% of unsexed, frozen controls that had 7 to 20 times more sperm/insemination dose; however, in a few trials, control pregnancy rates were substantially higher than with low doses of sexed sperm. There were too few inseminations per bull to test bull differences in pregnancy rates rigorously. Insemination of sexed, frozen sperm bilaterally into the uterine horns produced pregnancy rates similar to insemination into the uterine body in 4 of 5 field trials. Pregnancy rates among inseminators did not differ significantly. There was no excess embryonic death between 1 and 2 months of gestation with pregnancies from sexed sperm, and very few abortions occurred between 2 months of gestation and term. Although rigorous epidemiological studies remain to be done, calves resulting from sexed sperm appear to exhibit no more abnormalities than controls.

Cloning, characterization, and heterologous expression of cDNAs for farnesyl diphosphate synthase from the guayule rubber plant reveals that this prenyltransferase occurs in rubber particles.

Two farnesyl diphosphate synthase (FPS) cDNA's from a guayule stembark library were isolated and characterized. Both encode M(r) 39,000 proteins containing 432 amino acids that differ slightly in their deduced molecular weights and isoelectric points. They both contain the DDXXD motifs that are characteristic of prenyltransferases, and both isoforms show high homology to other plant FPS sequences but less overall homology to FPS sequences from nonplant sources. The two isoforms differ by 5% in their amino acid sequence. When expressed in Escherichia coli, each guayule isoform exhibits high specific activity that produces farnesyl diphosphate as the major isoprenoid and small amounts of geranyl diphosphate. Biochemical and immunological evidence also indicates that FPS is associated with guayule rubber particles. Antibodies to chicken FPS cross-react with both guayule isoforms expressed in E. coli and recognize a low abundance M(r) 39,000 protein in rubber particles purified from guayule stembark. Guayule FPS sequences show high homology to peptide fragments of the prenyltransferase associated with rubber particles from Hevea brasiliensis, suggesting that this enzyme may be important for rubber biosynthesis in both species.

Silver staining two types of meiotic nodules.

We have developed a reliable method for silver staining nodules on synaptonemal complexes (SCs) of tomato (Lycopersicon esculentum). This technique involves hypotonically bursting primary microsporocytes, fixing SC spreads with paraformaldehyde, and incubating the spreads at 40 degrees C in a 33% aqueous silver nitrate solution covered with nylon mesh. When tomato SCs were stained by this method, nodules were observed with the same distribution and frequency as nodules stained with uranyl acetate and lead citrate. Incubation in silver nitrate at higher temperatures caused the loss of some or all nodules. The pattern of loss suggests that two types of nodules coexist during late zygonema and early pachynema and that one type becomes the late nodules of mid-pachynema through early diplonema.

Staining plant cells with silver. III. The mechanism.

Silver does not stain all cytological structures with the same intensity. The chemical basis for differential silver staining is unclear, but differences in protein side groups available to react with silver are likely involved. These include amine, carboxyl, phosphate, sulfhydryl and hydroxyl moieties. Here we report an investigation of the chemical groups that could be involved in salt-nylon silver staining of onion root tip squashes. Based on the results, we conclude that SN silver staining primarily depends on the presence of tyrosine hydroxyl groups, and we propose a mechanism for staining.

Staining plant cells with silver. I. The salt-nylon technique.

A technique is described for selectively silver staining nucleoli, active nucleolus organizers, nucleolar material attached to chromosomes, kinetochores, synaptonemal complexes, and chromosome cores in plant cells. The technique, called salt-nylon silver staining, involves spreading cells on glass slides, treating the cells with a solution of saline sodium citrate, and incubating the cells in a silver nitrate solution covered with nylon screen. Selected variables important for achieving reliable silver staining are considered.