Evidence for hexasomic inheritance in Chrysanthemum morifolium Ramat. based on analysis of EST-SSR markers

Chrysanthemums (Chrysanthemum morifolium Ramat.) are ornamental flowers, which are famous worldwide. The mode of inheritance has great implications for the genetic analysis of polyploid species. However, genetic analysis of chrysanthemum has been hampered because of its controversial inheritance mode (disomic or hexasomic). To classify the inheritance mode of chrysanthemums, an analysis of three approaches was carried out in an F1 progeny of 192 offspring using 223 expressed sequence tag-simple sequence repeat (EST-SSR) markers. The analysis included segregation analysis, the ratio of simplex marker alleles linked in coupling to repulsion, as well as the transmission and segregation patterns of EST-SSR marker alleles. After segregation analysis, 204 marker alleles fit hexasomic inheritance and 150 marker alleles fit disomic inheritance, showing that marker alleles were inherited predominantly in a hexasomic manner. Furthermore, the results of the analysis of allele configuration and segregation behavior of five EST-SSR markers also suggested random pairing of chromosomes. Additionally, the ratio of simplex marker alleles linked in coupling to repulsion was 1:0, further supporting hexasomic inheritance. Therefore, it could be inferred that chrysanthemum is a complete or near-complete hexasome.

Variations of C14ORF39 and SYCE1 identified in idiopathic premature ovarian insufficiency and nonobstructive azoospermia

Context Premature ovarian insufficiency (POI) and nonobstructive azoospermia (NOA) are the most sever disease causing irreversible infertility in female and male respectively. The contribution of synaptonemal complex (SC) genes variations in the pathogenesis of sporadic patients with POI and NOA has not been systematically illustrated. Objective To investigate the role of SC genes in the pathogenesis of sporadic POI and NOA. Design Genetic and functional study. Setting University-based reproductive medicine center. Patient(s) A total of 1,030 patients with sporadic POI and 400 patients with sporadic NOA. Intervention(s) The variations of SC genes were filtered in the in-house database of whole exome sequencing performed in 1,030 patients with sporadic POI and 400 patients with sporadic NOA. The pathogenic or likely pathogenic variations following recessive inheritance mode were selected according to American College of Medical Genetics and Genomics (ACMG) guidelines and confirmed by Sanger sequencing. The pathogenic effects of the variations were verified by functional studies. Main Outcome Measure(s) ACMG classification and functional characteristics. Result(s) Two homozygous variations of C14ORF39 and two recessive variations of SYCE1 were firstly identified in sporadic patients with POI and NOA respectively. Functional studies showed the C14ORF39 variations significantly accelerated the protein degradation, and the variations in SYCE1 disrupted its interaction with SYCP1 or C14ORF39, both of which affected SC assembly and meiosis. Conclusion(s) Our study identified novel pathogenic variations of C14ORF39 and SYCE1 in sporadic patients with POI or NOA, highlighting the essential role of SC genes in the maintenance of ovarian and testicular function.

A pathogenic DMC1 frameshift mutation causes nonobstructive azoospermia but not primary ovarian insufficiency in humans

Nonobstructive azoospermia (NOA) and diminished ovarian reserve (DOR) are two disorders that can lead to infertility in males and females. Genetic factors have been identified to contribute to NOA and DOR. However, the same genetic factor that can cause both NOA and DOR remains largely unknown. To explore the candidate pathogenic gene that causes both NOA and DOR, we conducted whole-exome sequencing (WES) in a non-consanguineous family with two daughters with DOR and a son with NOA. We detected one pathogenic frameshift variant (NM_007068:c.28delG, p. Glu10Asnfs*31) following a recessive inheritance mode in a meiosis gene DMC1 (DNA meiotic recombinase 1). Clinical analysis showed reduced antral follicle number in both daughters with DOR, but metaphase II oocytes could be retrieved from one of them. For the son with NOA, no spermatozoa were found after microsurgical testicular sperm extraction. A further homozygous Dmc1 knockout mice study demonstrated total failure of follicle development and spermatogenesis. These results revealed a discrepancy of DMC1 action between mice and humans. In humans, DMC1 is required for spermatogenesis but is dispensable for oogenesis, although the loss of function of this gene may lead to DOR. To our knowledge, this is the first report on the homozygous frameshift mutation as causative for both NOA and DOR and demonstrating that DMC1 is dispensable in human oogenesis.

An Inheritance Mode of Rural Cultural Heritage Based on Virtual Museum in China

In China, there is a crisis of rural cultural heritage inheritance due to urbanization. The traditional cultural inheritance modes such as building museums may not satisfy the needs of wide and fast culture transmission, communication, and inheritance. However, the virtual museum may provide new solutions. Nowadays, China has essential social-economic conditions for virtual museum construction but lacks sustainable modes for virtual museums supporting rural cultural heritage inheritance. In this study, we adopted the theoretical analysis method, expert argumentative method, and combined with virtual museum technology analysis to design an appropriate mode for the cultural heritage’s inheritance in rural areas. We built a demonstrational virtual museum for the Mt. Mogan government according to this mode, adopted a comparative analysis and questionnaire survey to verify, and assess the application effects of the mode. Results show that the inheritance mode of rural cultural heritage based on the virtual museum has advantages of larger exhibition scale and wider scope of cultural transmission and communication with less input, and this mode’s operation is steady and sustainable. The inheritance crisis of rural cultural heritage needs reasonable solutions, and our results can be a guideline for building virtual museums in rural areas to promote wide, fast, and sustainable cultural inheritance.

P–573 PGT-M for two or more disease carrier patients diagnosed after whole exome sequencing

Study question Can whole exome sequencing (WES) before PGT-M identify previously unknown mutations for consanguineous couples having an increased risk of carrying more than one genetic disease? Summary answer WES has been successfully applied in combination with PGT-M by identifying new pathogenic mutations in addition to known gene mutations, extending the scope of PGT-M. What is known already Most couples ignore their risk of being a carrier of an inherited genetic disease until they have an affected child. Rare, atypical, and undiagnosed autosomal-recessive disorders frequently occur in the offspring of consanguineous couples. Routine single gene diagnostic tests fail to detect any possible gene defects other than the clinically apparent one. Prospective WES or genetic carrier screening testing of consanguineous couples could identify couples who both are carriers of autosomal recessive diseases and thus encourage them to make informed reproductive decisions. Screening tests using NGS technology simultaneously sequence exons and exon-intron boundaries to determine disease carrier status. Study design, size, duration Between January 2017 and October 2020, a total of 206 PGT-M couples applied to Istanbul Memorial Hospital ART Center. Of these couples, multigene PGT-M workups were carried for twelve couples who were carriers of more than one inherited disease. Eight couples were found to be carriers for two different diseases and four couples were carrying three diseases. All biopsies were performed at the blastocyst stage. Participants/materials, setting, methods For the 12 couples with multigene PGT-M workups the average female age was 31.0 ± 6.2. Nine of them initiated an ART cycle and the mean number of cumulus-oocyte complexes, metaphaseII oocytes, biopsied blastocysts and transferrable PGT-M embryos were 15 ± 6.9, 13.3 ± 6.3, 5.9 ± 2.0 and 2.9 ± 1.9, respectively. PGT-A was routinely performed for all couples with transferrable PGT-M tested embryos except one couple who refused PGT-A. Main results and the role of chance A total of 28 different gene workups were completed for 26 genes. The inheritance mode of the 26 conditions was as follows: 20 autosomal recessive, four autosomal dominant and two X-linked recessive. Out of 12 couples, 9 of them initiated an ART cycle and transferrable embryos were found after PGT-M followed by PGT-A. Eight women had frozen embryo transfers resulting in five healthy babies (3 singletons and 1 twin), two pregnancies still ongoing and one biochemical miscarriage at the time of data collection. The couple who declined PGT-A testing prior to their frozen embryo transfer had anegative bhCG test. Three couples completed their workups but postponed their ART and PGT-M cycle due to Covid–19 pandemic. Limitations, reasons for caution The probability of finding at least one transferrable embryo after PGT-M is influenced by the inheritance mode of the disease. Late-onset diseases presumed to be caused by variants of unknown significance and polygenic diseases that are possibly influenced by environmental factors were not included in this study. Wider implications of the findings: With decreasing costs and improved availability of WES and genetic carrier screening panels, couples, especially consanguineous couples, who were previously shown to have one inherited disease may be offered to be screened for additional undiagnosed inherited diseases that may pose a threat for their offspring. Trial registration number Not applicable

Research on the Development Model of Black Copper Walking on Silver in Vitality Inheritance and Industrialization

"Black Copper Walking on Silver ", the unique copper production process in Yunnan, as an important part of the excellent traditional Chinese culture, its inheritance has far-reaching significance for us to establish cultural confidence and rebuild cultural identity. However, the current development of black copper and silver walking technology is difficult, and the traditional sense of protection has been unable to solve the root problem. Nowadays, the protection of black copper and silver walking skills should break the traditional static single protection mode, combine the traditional inheritance with modern protection, and grasp the intangible cultural heritage elements from the perspective of productive protection. On the basis of objectively analyzing the characteristics and development status, the article effectively connects the living inheritance with industrialization, and explores the new development mode of folk custom industrialization under the live inheritance mode, so as to promote the live inheritance of black copper walking on silver and the common development of folk economy industry.

Novel Autosomal Recessive Splice-Altering Variant in PRKD1 Is Associated with Congenital Heart Disease

Congenital heart defects (CHDs) are the most common types of birth defects, and global incidence of CHDs is on the rise. Despite the prevalence of CHDs, the genetic determinants of the defects are still in the process of being identified. Herein, we report a consanguineous Saudi family with three CHD affected daughters. We used whole exome sequencing (WES) to investigate the genetic cause of CHDs in the affected daughters. We found that all affected individuals were homozygous for a novel splice-altering variant (NM_001330069.1: c.265-1G>T) of PRKD1, which encodes a calcium/calmodulin-dependent protein kinase in the heart. The homozygous variant was found in the affected patients with Pulmonary Stenosis (PS), Truncus Arteriosis (TA), and Atrial Septal Defect (ASD). Based on the family’s pedigree, the variant acts in an autosomal recessive manner, which makes it the second autosomal recessive variant of PRKD1 to be identified with a link to CHDs, while all other previously described variants act dominantly. Interestingly, the father of the affected daughters was also homozygous for the variant, though he was asymptomatic of CHDs himself. Since both of his sisters had CHDs as well, this raises the possibility that the novel PRKD1 variant may undergo autosomal recessive inheritance mode with gender limitation. This finding confirms that CHD can be associated with both dominant and recessive mutations of the PRKD1 gene, and it provides a new insight to genotype–phenotype association between PRKD1 and CHDs. To our knowledge, this is the first report of this specific PRKD1 mutation associated with CHDs.