Molecular Karyotyping on Populus simonii × P. nigra and the Derived Doubled Haploid

The molecular karyotype could represent the basic genetic make-up in a cell nucleus of an organism or species. A doubled haploid (DH) is a genotype formed from the chromosome doubling of haploid cells. In the present study, molecular karyotype analysis of the poplar hybrid Populus simonii × P. nigra (P. xiaohei) and the derived doubled haploids was carried out with labeled telomeres, rDNA, and two newly repetitive sequences as probes by fluorescence in situ hybridization (FISH). The tandem repeats, pPC349_XHY and pPD284_XHY, with high-sequence homology were used, and the results showed that they presented the colocalized distribution signal in chromosomes. For P. xiaohei, pPD284_XHY produced hybridizations in chromosomes 1, 5, 8, and 9 in the hybrid. The combination of pPD284_XHY, 45S rDNA, and 5S rDNA distinctly distinguished six pairs of chromosomes, and the three pairs of chromosomes showed a significant difference in the hybridization between homologous chromosomes. The repeat probes used produced similar FISH hybridizations in the DH; nevertheless, pPD284_XHY generated an additional hybridization site in the telomere region of chromosome 14. Moreover, two pairs of chromosomes showed differential hybridization distributions between homologous chromosomes. Comparisons of the distinguished chromosomes between hybrid and DH poplar showed that three pairs of chromosomes in the DH presented hybridization patterns that varied from those of the hybrid. The No. 8 chromosome in DH and one of the homologous chromosomes in P. xiaohei shared highly similar FISH patterns, which suggested the possibility of intact or mostly partial transfer of the chromosome between the hybrid and DH. Our study will contribute to understanding the genetic mechanism of chromosomal variation in P. xiaohei and derived DH plants.

P–516 Evidence for self-correction in preimplantation embryos by comparative molecular karyotyping of blastocoele fluid, trophectoderm and inner cell mass

Study question Does the molecular karyotype of the cell-free DNA (cfDNA) from the blastocyst fluid (BF) can predict the efficiency of self-correction of karyotype of preimplantation embryo? Summary answer Detection of aneuploidies in the BF potentially can point out on effective self-correction of blastocyst karyotype and consequently on high developmental potential of mosaic embryos. What is known already Correction of aneuploidies in the preimplantation embryos can be provided by several mechanisms, including apoptosis. The predominant death of aneuploid cells was demonstrated in mouse embryos (Bolton, 2016). A positive correlation was also shown between the concentration of cfDNA from the BF of human blastocyst and the morphology of the embryo, as well as between the activity of caspase–3 and the concentration of cfDNA (Rule, 2018). The incidence of failed amplification after WGA being significantly higher among euploid blastocysts (Magli, 2019). The capacity of abnormal cells extruding into the BF would be related to the embryo development potential (Gianaroli, 2019). Study design, size, duration This is a prospective observational study of thirty-one Day 5 human blastocysts. Cryopreserved blastocysts were received after treatment cycles at the IVF Center with informed consent obtained from couples. The average age of 15 women was 32.25±5 years. The morphological characteristics of blastocysts were estimated in accordance with the Gardner classification (Gardner, Schoolcraft, 1999). The procedure of BF aspiration and trophectoderm (TE) and ICM cells separation of the blastocysts was previously described (Tsuiko, 2018). Participants/materials, setting, methods WGA was performed by PicoPLEX kit (Rubicon Genomics, USA) or REPLI-g Mini kit (Qiagen) according to manufacturer’s protocols. The DNA of the BF, ICM and TE were analyzed separately using cCGH, aCGH and NGS. SurePrint G3 Human CGH Microarrays (8x60K, Agilent Technologies) were used according to the manufacturer’s recommendations. Image analysis was done using ISIS (v.5.5) (Metasystems) and Agilent CytoGenomics Software (v.3). VeriSeq™ PGS Kit - MiSeq® System (Illumina) was used for NGS. Main results and the role of chance Molecular karyotypes of all three samples - BF, ICM and TE, were obtained for 23 (74.2%) blastocysts. A correlation between the woman’s age and the number of aneuploidies in cfDNA (p = 0.0009) was found. A positive correlation may indicate that the number of aneuploidies in the embryonic cells increases with the age of a woman, however, the embryonic karyotype undergoes self-correcting through the elimination of aneuploid cells. It was noted that well-developing blastocysts (groups 4–5, according to Gardner’s classification) had fewer aneuploidies in ICM (p = 0.0141) and TE (p = 0.0436). In contrast, there was a tendency to an increase in the number of aneuploidies in the BF during blastocysts transition from stage 3 to 5 (p = 0.3542). We assessed the relationship between the number of aneuploidies in groups of blastocysts with different characteristics of ICM (groups “A” and “B” according to Gardner’s classification). These groups significantly differ in the number of aneuploidies in cfDNA (p = 0.0352), although the statistically significant differences between the number of aneuploidies in ICM (p = 0.5992) and in TE (p = 0.5934) was not detected. Thus, higher-quality embryos in terms of ICM morphology contain more abnormalities in the BF, since in this group the elimination of aneuploid cells is more efficient. Limitations, reasons for caution The number of embryos is limited in this study. More comprehensive studies are required to confirm the observed tendency. Wider implications of the findings: Aneuploid cells elimination can be a cause of increasing cfDNA concentration in the BF, which may be a marker of the viability of mosaic embryos when it is necessary to decide on mosaic embryo transfer. This study was supported by the RFBR (15–04–08265) and by the RSF (20–74–00064). Trial registration number Not applicable

Vinification without Saccharomyces: Interacting Osmotolerant and “Spoilage” Yeast Communities in Fermenting and Ageing Botrytised High-Sugar Wines (Tokaj Essence)

The conversion of grape juice to wine starts with complex yeast communities consisting of strains that have colonised the harvested grape and/or reside in the winery environment. As the conditions in the fermenting juice gradually become inhibitory for most species, they are rapidly overgrown by the more adaptable Saccharomyces strains, which then complete the fermentation. However, there are environmental factors that even Saccharomyces cannot cope with. We show that when the sugar content is extremely high, osmotolerant yeasts, usually considered as “spoilage yeasts“, ferment the must. The examination of the yeast biota of 22 botrytised Tokaj Essence wines of sugar concentrations ranging from 365 to 752 g∙L−1 identified the osmotolerant Zygosaccharomyces rouxii, Candida (Starmerella) lactis-condensi and Candida zemplinina (Starmerella bacillaris) as the dominating species. Ten additional species, mostly known as osmotolerant spoilage yeasts or biofilm-producing yeasts, were detected as minor components of the populations. The high phenotypical and molecular (karyotype, mtDNA restriction fragment length polymorphism (RFLP) and microsatellite-primed PCR (MSP-PCR)) diversity of the conspecific strains indicated that diverse clones of the species coexisted in the wines. Genetic segregation of certain clones and interactions (antagonism and crossfeeding) of the species also appeared to shape the fermenting yeast biota.

The Influence of Chromosomal Polymorphism on Embryo Development and Embryonic Molecular Karyotype in Preimplantation Genetic Testing for Chromosomal Translocation

Traditionally, chromosomal polymorphisms (CPMs) are normal genetic variants in individuals with no phenotypic variations. However, some studies have shown that CPM is related to reproductive diseases. We explored the influence of CPM on embryonic development and molecular karyotype in chromosomal translocation (CT) patients undergoing preimplantation genetic testing (PGT) between February 2013 and May 2019. Twenty-six cases with CPM and 56 controls with normal chromosomes were included. Furthermore, a 1:4 match pair analysis by female age included 39 cases with CTCPM and 185 controls with CT. There was no statistical difference in fertilization rate (78.48% vs. 78.33%), cleavage rate on Day 3 (90.32% vs. 89.16%), blastocyst rate (60.00% vs. 60.80%), and the high-quality blastocyst rate (36.31% vs. 35.22%) between CPM and normal chromosomes. The high-quality blastocyst rate of CTCPM was significantly lower than that for CT (26.78% vs. 38.89%). Moreover, there was no statistical difference in fertilization rate (70.65% vs. 70.37%), cleavage rate on Day 3 (88.67% vs. 89.53%), and blastocyst rate (48.48% vs. 53.17%) between CTCPM and CT. In addition, one CTCPM spouse had a lower high-quality blastocyst rate, especially of males with CTCPM. Abnormal embryo rates of CTCPM were significantly higher than those for CT (78.64% vs. 68.93%). Abnormal embryo rates were higher in both CTCPM and CPM paternal carriers with CT partners, respectively. For CT, CTCPM may have an impact on the high-quality blastocyst rate and embryonic molecular karyotype, especially in male patients. Patients with CTCPM are relatively rare, but this population would benefit from being explored using a larger sample size.

The influence of balanced complex chromosomal rearrangements on preimplantation embryonic development potential and molecular karyotype

Background: Balanced complex chromosome rearrangements (BCCR) are balanced chromosomal structural aberrations that involve two or more chromosomes and at least three breakpoints. It is very rare in the population.The objective is to explore the difference of influence of three types of BCCR on early embryonic development and molecular karyotype.Results:Twelve couples were recruited including four couples of three-way rearrangements carriers (group A), three couples of double two-way translocations carriers (group B) and five couples of exceptional CCR carriers (group C). A total of 243 oocytes were retrievedin the seventeen preimplantation genetic testing (PGT) cycles, and 207 of these were available for fertilization.After intracytoplasmic sperm injection, 181oocytes normally fertilized. The rates of embryos forming on day3 in three groups were 87.88%, 97.78% and77.14%, which was significantly different (P=0.01). Compared with group B, the rate of embryo formation was statistically significantly lower in group C(P=0.01).Furthermore, the rates of high-quality blastocysts in three group were 14.71%, 48.15% and 62.96%, respectively, which was significantly different (P=0.00). Compared with group B andC, the rate of high-quality blastocysts in group A was statistically significantly lower (P=0.00;P=0.00). Comprehensive chromosome analysis was performed on 83 embryos, including 75 trophectodermcellsand 8 blastomeres. Except 7 embryos failed to amplify, 9.01%embryos were diagnosed as euploidy, and 90.91% were diagnosed as abnormal. As for group A, the euploid embryo rate was 10.71%and the abnormal embryo rate was 89.29%. In group B,the euploid embryo rate was 3.85%, the abnormal embryo rate was 96.15%. The euploid embryo rate was 13.04%, the abnormal embryo rate was 86.96% in group C.There were no significant differences among the three groups (P = 0.55).Conclusions:The lowest rate of high quality blastocysts has been for three-way rearrangements and the lowest rate of euploidy has been for double two-way translocations, although no significant difference. Different types of BCCR maybe have little effect on the embryonic molecular karyotype. The difference of influence of BCCR on early embryonic developmentandmolecular karyotypeshould be further studied.

The influence of balanced complex chromosomal rearrangements on preimplantation embryonic development potential and molecular karyotype

Background: Balanced complex chromosome rearrangements (BCCR) are balanced chromosomal structural aberrations that involve two or more chromosomes and at least three breakpoints. It is very rare in the population.The objective is to explore the difference of influence of three types of BCCR on early embryonic development and molecular karyotype.Results:Twelve couples were recruited including four couples of three-way rearrangements carriers (group A), three couples of double two-way translocations carriers (group B) and five couples of exceptional CCR carriers (group C). A total of 243 oocytes were retrievedin the seventeen preimplantation genetic testing (PGT) cycles, and 207 of these were available for fertilization.After intracytoplasmic sperm injection, 181oocytes normally fertilized. The rates of embryos forming on day3 in three groups were 87.88%, 97.78% and77.14%, which was significantly different (P=0.01). Compared with group B, the rate of embryo formation was statistically significantly lower in group C(P=0.01).Furthermore, the rates of high-quality blastocysts in three group were 14.71%, 48.15% and 62.96%, respectively, which was significantly different (P=0.00). Compared with group B andC, the rate of high-quality blastocysts in group A was statistically significantly lower (P=0.00;P=0.00). Comprehensive chromosome analysis was performed on 83 embryos, including 75 trophectodermcellsand 8 blastomeres. Except 7 embryos failed to amplify, 9.01%embryos were diagnosed as euploidy, and 90.91% were diagnosed as abnormal. As for group A, the euploid embryo rate was 10.71%and the abnormal embryo rate was 89.29%. In group B,the euploid embryo rate was 3.85%, the abnormal embryo rate was 96.15%. The euploid embryo rate was 13.04%, the abnormal embryo rate was 86.96% in group C.There were no significant differences among the three groups (P = 0.55).Conclusions:The lowest rate of high quality blastocysts has been for three-way rearrangements and the lowest rate of euploidy has been for double two-way translocations, although no significant difference. Different types of BCCR maybe have little effect on the embryonic molecular karyotype. The difference of influence of BCCR on early embryonic developmentandmolecular karyotypeshould be further studied.