To study the phylogenetics of sugarcane (Saccharum officinarum L.) and its relatives we sequenced four loci on cytoplasmic genomes (two chloroplast and two mitochondrial) and analyzed mitochondrial RFLPs generated using probes for COXI, COXII, COXIII, Cob, 18S+5S, 26S, ATPase 6, ATPase 9, and ATPase α (D'Hont et al. 1993). Approximately 650 bp of DNA in the intergenic spacer region between rbcL and atpB and approximately 150 bp from the chloroplast 16S rDNA through the intergenic spacer region tRNA(val) gene were sequenced. In the mitochondrial genome, part of the 18S rRNA gene and approximately 150 bp from the 18S gene 3' end, through an intergenic spacer region, to the 5S rRNA gene were sequenced. No polymorphisms were observed between maize, sorghum, and 'Saccharum complex' members for the mitochondrial 18S internal region or for the intergenic tRNA(val) chloroplast locus. Two polymorphisms (insertion-deletion events, indels) were observed within the 18S-5S mitochondrial locus, which separated the accessions into three groups: one containing all of the Erianthus, Eccoilopus, Imperata, Sorghum, and 1 Miscanthus species; a second containing Saccharum species, Narenga porphyrocoma, Sclerostachya fusca, and 1 presumably hybrid Miscanthus sp. from New Guinea; and a third containing maize. Eighteen accessions were sequenced for the intergenic region between rbcL and atpB, which was the most polymorphic of the regions studied and contained 52 site mutations and 52 indels, across all taxa. Within the Saccharum complex, at most 7 site mutations and 16 indels were informative. The maternal lineage of Erianthus/Eccoilopus was nearly as divergent from the remaining Saccharum complex members as it was from sorghum, in agreement with a previous study. Sequences from the rbcL-atpB spacer were aligned with GENBANK sequences for wheat, rice, barley, and maize, which were used as outgroups in phylogenetic analyses. To determine whether limited intra-complex variability was caused by under sampling of taxa, we used seven restriction enzymes to digest the PCR-amplified rbcL-atpB spacer of an additional 36 accessions within the Saccharum complex. This analysis revealed ten restriction sites (none informative) and eight length variants (four informative). The small amount of variation present in the organellar DNAs of this polyploid complex suggests that either the complex is very young or that rates of evolution between the Saccharum complex and outgroup taxa are different. Other phylogenetic information will be required to resolve systematic relationships within the complex. Finally, no variation was observed in commercial sugarcane varieties, implying a world-wide cytoplasmic monoculture for this crop.
Intergenic tRNA spacers from strains of streptococcal groups A, B, and G were amplified by using the polymerase chain reaction (PCR) at low stringency with consensus tRNA gene primers. Cloning and sequencing showed that many of the homologous intergenic spacers differed in length between species. The sequences of the tRNA genes that flank these polymorphic spacers were determined and used to synthesize fully complementary primers. With these primers at high stringency, PCR products which varied in lengths from 53 to 71 bp, depending on the species or strain, were obtained from streptococcal DNAs, even in the presence of a 1,000-fold mass excess of human DNA. PCR products, the lengths of which could also be used for classification, were obtained at high stringency from a few genera closely related to Streptococcus. No products were obtained from genomic DNAs from more distantly related genera. Production of species- or strain-specific tRNA intergenic length polymorphisms with primers that generate characteristic products from a variety of species within the same genus should be applicable to many organisms, including those that would otherwise be difficult to culture or identify.
Genes on the X chromosome are known to be responsible for more than 200 hereditary diseases. After IVF, the simple selection of embryo sex before uterine transfer can prevent the occurrence of affected offspring among couples at risk for these genetic disorders. The aim of this investigation was to develop a rapid method of preimplantation genetic diagnosis (PGD) using real-time polymerase chain reaction (PCR) for the sexing of human embryos, and to compare it to the fluorescence in-situ hybridization technique, considered to be the gold standard. After biopsies were obtained from 40 surplus non-viable embryos for transfer, a total of 98 blastomeres were analysed. It was possible to analyse 24 embryos (60%) by both techniques, generating a total of 70 blastomeres (35 per technique), while 28 blastomeres from 16 embryos (40%) were analysed only by real-time PCR. A rapid and safe method was developed in the present study for the sexual diagnosis of a single human cell (blastomere and buccal cell) using the emerging technology of real-time PCR.
The present study was carried out to investigate the predictive value of the sperm survival test (SST) with respect to the fertilization of oocytes in culture. In general, our laboratory uses a total of 50,000-150,000 motile spermatozoa to inseminate each oocyte. The remaining material is evaluated for motility before and after 24 h of incubation at 37 degrees C in a 5% CO2 atmosphere. A total of 250 oocytes from 50 cases (mean +/- SD, 5.0 +/- 2.4 oocytes per retrieval) were inseminated and the final rate of cleaved embryos obtained was 52.5%. The SST (%) was considered normal when the ratio (final density of progressing spermatozoa after 24 h x 100/initial density of progressing spermatozoa) was 50% or more. Any other result was considered abnormal. Cases presenting one or more cleaved embryos (n = 40) were separated from those in which no embryo formation occurred (n = 10) and the results were compared in terms of the respective sperm survival rates over a period of 24 h: normal SST (one or more cleaved embryos, 37; none, five), abnormal SST (one or more cleaved embryos, three; none, five). The specificity of the SST was 0.92 and sensitivity 0.50, the predictive value of the abnormal test was 0.62 and the predictive value of the normal test 0.88. The efficacy of the test was estimated at 0.71, which was better than the conventional parameters of sperm analysis. A receiver-operating characteristics curve for SST confirmed that the test can be useful for the prediction of fertilizability of oocytes in the laboratory.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.