Type Of Sterility Research Articles

Integrated Transcriptomics and Metabolomics Analysis Reveals Convergent and Divergent Key Molecular Networks of Dominant Genic Male Sterility and Cytoplasmic Male Sterility in Cabbage

Cytoplasmic male sterility (CMS) and dominant genic male sterility (DGMS) both result in the inability to produce or release functional pollen, making them pivotal systems in the hybridization breeding programs of Brassica crops such as cabbage (B. oleracea var. capitata). However, the underling molecular mechanisms are still largely unexplored. This study integrated transcriptomic and metabolomic analyses of cabbage DGMS line, Ogura CMS line, and the maintainer line to uncover the molecular mechanisms underlying these sterility types. The joint analysis predominantly identified significantly enriched pathways, including carbohydrate metabolism, flavonoid biosynthesis, and phenylpropanoid pathways between the MS lines and the maintainer. Especially, the CMS line exhibited a broader range of metabolic perturbations, with a total of 3,556 significantly differentially expressed genes (DEGs) and 439 differentially accumulated metabolites (DAMs) detected, particularly in the vitamin B6 metabolism pathway, which showed significant alterations. Given the differences in the inactivation period of microspores in CMS and DGMS lines, we found that DEGs unique to DGMS and maintainer line, such as BoGRPs and BoLTPs, primarily regulate fertility development before the unicellular stage. The DEGs shared between CMS_vs_maintainer and DGMS_vs_maintainer mainly govern microspore development after release from the tetrad, such as BoHXK1 and BoIDH. Additionally, the DEGs unique to CMS_vs_maintainer may contribute to other damage in floral organs beyond male fertility, potentially leading to severe bud abortion, such as BoPNPO. These findings provide a comprehensive framework for understanding the molecular mechanisms of male sterility and offer valuable insights into future breeding strategies in cruciferous vegetables.

Cytological analysis of flower development, insights into suitable growth area and genomic background: implications for Glehnia littoralis conservation and sustainable utilization

BackgroundGlehnia littoralis F. Schmidt ex Miq., an endangered plant species with significant medicinal, edible, and ecological value, is now a central concern for conservation and sustainable utilization. Investigating the physiological and ecological mechanisms leading to its endangerment and elucidating its genetic background constitutes the foundation for conducting in-depth research on G. littoralis.ResultsOur observations have revealed a significant degree of floral sterility in wild populations of G. littoralis. The inflorescences of G. littoralis are classified into three types: completely fertile, completely sterile, and partially fertile compound umbels. Moreover, the flowers of G. littoralis can be categorized into fertile and sterile types. Sterile flowers exhibited abnormalities in the stigma, ovary, and ovules. This study is the first to discover that the presence or absence of a giant cell at the funiculus during the initiation of ovule primordium determines whether the flower can develop normally, providing cytological evidence for female sterility in G. littoralis. Conversely, both fertile and sterile flowers produced normally developed pollen. Field observations have suggested that robust plants bear more fertile umbels, while weaker ones have fewer or even no fertile umbels, indicating a close relationship between flower fertility and plant nutritional status. Our model correctly predicted that the eastern coastal regions of China, as well as prospective areas in Neimenggu and Sichuan, are suitable environments for its cultivation. Additionally, Using flow cytometry and genome survey, we estimated the genome size of G. littoralis to be 3.06 Gb and the heterozygosity to be 4.58%.ConclusionThe observations and findings presented in this study were expected to provide valuable insights for further conserving its genetic resources and sustainable utilization of G. littoralis.

The mitochondrial genes orf113b and orf146 from Xinjiang wild rapeseed cause pollen abortion in alloplasmic male sterility

Nsa CMS, a type of cytoplasmic male sterility (CMS) in rapeseed, originates from the cross between Xinjiang wild rapeseed (Sinapis arvensis) and Xiangyou 15 (Brassica napus L.). Although this CMS variant shows promising applications, the factors contributing to its sterility and their underlying mechanisms remain unclear. To the best of our knowledge, we successfully assembled and analyzed the mitochondrial genome of 1258A (Nsa CMS) for the first time. This mitochondrial genome, spanning 263,010 bp, contains 91 genes, including 33 protein-coding and 36 orf genes. Our analysis identified a novel mitochondrial gene, orf113b, and a mutated, truncated gene, orf146, both likely linked to the sterility observed in 1258A. ORF113b and ORF146 were found to impede cell growth, disrupt gene expression associated with complexes I, III, and V of the mitochondrial oxidative phosphorylation pathway, and trigger reactive oxygen species (ROS) production. Additionally, transcriptome data analysis revealed key nuclear genes co-expressed with orf113b and orf146, suggesting that their aberrant expression may be influenced by retrograde signaling from the mitochondria. This signaling could lead to atypical programmed cell death (PCD) in the tapetum layer, resulting in pollen sterility. In conclusion, our study not only provides the first characterization of the Nsa CMS mitochondrial genome but also identifies orf113b and orf146 as crucial to pollen sterility. Furthermore, it suggests that ROS induced by these mitochondrial genes may play a central role in the abnormal regulation of nuclear genes essential for pollen development, offering new insights into the molecular mechanisms underlying Nsa CMS.

Mutations in nuclear genes encoding mitochondrial ribosome proteins restore pollen fertility in S male-sterile maize.

The interaction of plant mitochondrial and nuclear genetic systems is exemplified by mitochondria-encoded cytoplasmic male sterility (CMS) under the control of nuclear restorer-of-fertility genes. The S type of CMS in maize is characterized by a pollen collapse phenotype and a unique paradigm for fertility restoration in which numerous nuclear restorer-of-fertility lethal mutations rescue pollen function but condition homozygous-lethal seed phenotypes. Two nonallelic restorer mutations recovered from Mutator transposon-active lines were investigated to determine the mechanisms of pollen fertility restoration and seed lethality. Mu Illumina sequencing of transposon-flanking regions identified insertion alleles of nuclear genes encoding mitochondrial ribosomal proteins RPL6 and RPL14 as candidate restorer-of-fertility lethal mutations. Both candidates were associated with lowered abundance of mitochondria-encoded proteins in developing maize pollen, and the rpl14 mutant candidate was confirmed by independent insertion alleles. While the restored pollen functioned despite reduced accumulation of mitochondrial respiratory proteins, normal-cytoplasm plants heterozygous for the mutant alleles showed a significant pollen transmission bias in favor of the nonmutant Rpl6 and Rpl14 alleles. CMS-S fertility restoration affords a unique forward genetic approach to investigate the mitochondrial requirements for, and contributions to, pollen and seed development.

Contraceptive uptake in postpartum people with and without opioid use disorder and opioid use with co-occurring substance use

BackgroundUsing contraception to delay pregnancy allows people with opioid use disorder (OUD) to choose when they are ready to continue their families. Yet, postpartum contraceptive uptake among people with OUD has not been well characterized. MethodsAnalyses used 73,811 pregnancy episodes among 61,221 people (2016–2021) from the St. Louis University-SSM Virtual Data Warehouse. OUD was defined from the year prior and through pregnancy. Contraceptive uptake was defined within 90-days after delivery. We used Generalized Estimating Equations-type multinomial logit models to assess association of OUD +/- co-occurring substance use disorders (SUDs) with any contraception (yes/no) and type of contraception (effective – pills, patch, ring, injection; or highly effective – long-acting reversible, LARC methods [intrauterine device, implant] and sterilization). ResultsThe sample was 66.0 % white and average age was 27.7 years (±5.6). 32.5 % of pregnancies were followed by contraception initiation, 2.3 % had an OUD diagnosis, and 1.3 % OUD with co-occurring SUD. There was no association between OUD and postpartum contraception receipt, but OUD was associated with decreased highly effective compared to effective method initiation (aOR=0.76; 95 % CI: [0.64–0.91]). OUD plus co-occurring SUD was associated with decreased uptake across all contraception types (aOR=0.81[0.70–0.93]), specifically, highly-effective methods (aOR=0.48[0.38–0.61]). ConclusionsOverall postpartum contraception uptake among people with OUD is comparable to uptake in the non-OUD population. People with OUD plus co-occurring SUDs are particularly unlikely to receive contraception. The reasons people choose contraceptive methods are complex and may differ by SUD severity. More information is needed to understand factors that impact postpartum contraception initiation.

Marker assisted selection reveal SNP deletion mutation in gene associated with cytoplasmic male sterility in Solanumvillosum

Male sterility (MS) is powerful tool for improvement of various traits of economic importance. MS has not been characterized in Solanum villosum, and molecular mechanism underlying mutation change have not yet been studied. In this study, Sanger sequence platform was employed to amplify the MS genic region using mt ATPase marker. The molecular mechanism governing sterility was studied, and the results detected the amplification region at 1150bp. The sequence query was 97 % identical with atp subunit 6 gene loci. Significance mutation detected in this study was deletion GG (delGG) and deletion C (delC) occurring between 536bp and 542bp position in atp6 gene transcript. The mutation score was 16 for delGG and 17 for delC, with a 90 % mutation confidence interval. The study observed that SNP changes due to base deletions in the atp6 gene region were the main cause of male sterility in the studied mutants due to anticipated frameshifts of the open reading frame (ORF) of the mitochondrial atp6 gene, this is regarded as cytoplasmic male sterility type (CMS). Deformed and low pollen count was morphological changes confirmed this study that associated with sterility. Disruption of the ATP synthesis in mitochondria, limits the energy supply for pollen grain formation and anticipated pollen sterility however, mitochondria nuclear gene interaction governing the CMS should be further studied in case of S.villosum. These findings shed-light on molecular mechanism underlying the CMS and can be utilized as a molecular marker for agronomic traits improvement of S.villosum.

ORF138 causes abnormal lipid metabolism in the tapetum leading to Ogu cytoplasmic male sterility in Brassica napus

Plant cytoplasmic male sterility is caused by mutations and rearrangements of mitochondrial genes. It serves as a significant way to utilize hybrid vigor to enhance crop yield. Ogu CMS is a natural cytoplasmic male sterility type discovered in radishes, being successfully transferred to rapeseed and cruciferous vegetables. However, current studies lack depth in exploring the molecular mechanisms of its male sterility. In this study, we confirmed orf138 is the causal gene for Ogu CMS through genetic transformation in Arabidopsis. Transcriptome analysis of aborted anthers in different stages suggested differentially expressed genes (DEGs) are mainly enriched in pathways such as glycerophospholipid metabolism and arginine and proline metabolism. It reveals that key genes involved in lipid metabolism pathways are significantly down-regulated in the sterile line (OguA), including BnaGPAT1, localized within the tapetum mitochondrial and endoplasmic reticulum. This could lead to changes in the metabolism of substances like acylglycerols within the tapetum, causing disruptions in lipid metabolism. This is consistent with morphological and subcellular structural changes in the tapetum and microspore cells as observed in the transmission electron microscopy. This abnormal lipid metabolism may trigger specific ROS accumulation in an oxidative stress response, ultimately leading to aborted microspore. Our study based on transcriptome has deepened our understanding of the molecular mechanisms in Ogu CMS.

The trait-specific collection of large-seeded sunflower at VIR: ba source for breeding cultivars and hybrids

Background. In recent years, an increase has been observed in the share of sunflower seeds in the confectionery and food industries. There are 30 cultivars and only 3 hybrids for confectionery use among 839 zoned sunflower cultivars and hybrids listed in the State Register for Selection Achievements Admitted for Usage in 2023. Thus, the development of source material for breeding large-seeded cultivars and hybrids remains a relevant task.Materials and methods. The studied material included 90 accessions selected for their large seed size from VIR’s sunflower collection. The following characters were assessed: 1000 seed weight, days from sprouting to maturation, plant height, head diameter, cypsela color and size, and resistance to downy mildew. DNA markers were used to identify accessions with the Rf1 gene and CMS.Results. Accessions k-2818 (Primorsky Territory), k-3633, k-3748, k-3782 (China), and k-3578 (Ukraine) were the best in 1000 seed weight. Russian cvs. ‘Alekseyevsky Krupnoplodny 2’ (k-3552), ‘Gyar-Gyar’ (k-1589), ‘SPK’ (k-3426), and ‘Lakomka’ (k-3526) confirmed their large seed size. The sterile type of cytoplasm was identified in 12 accessions. Fourteen accessions with fertile cytoplasm had diagnostic markers of the nuclear Rf1 gene.Conclusion. The large-seeded cultivars developed at VNIIMK, ‘SPK’, ‘Lakomka’, and k-3782 from China were the best not only in their large seed size but also in downy mildew resistance. As a result of long-term studies, a trait-specific collection was established for the large seed size trait. It included 90 accessions that can be used in the development of confectionery cultivars. Large-seeded sunflower accessions carrying the Rf1 gene were identified. Some of them became the ancestors of donor lines for both pollen fertility restoration genes and large seed size.

Correlation between the response of maize lines to CMS and their origin

Transferring maize hybrids to a sterile basis is the most important condition for their introduction into production. In this regard, it is important to study the behavior of the initial forms of hybrids, namely self-pollinated lines, in the sterile cytoplasm. The purpose of the current study was to estimate the response of new self-pollinated maize lines, depending on their origin, to the “M” and “C” types of CMS, to identify natural restoring agents and complete sterility fixatives. The study was carried out at the FSBSI “ARC “Donskoy” in 2021–2023. The subjects of the study were 20 new self-pollinated maize lines of various origins, 6 sources of sterility, 120 testcross maize hybrids. There was found that the response of maize lines depended on their origin. Lines belonging to the same group (by origin) usually had the same reaction to the Moldovan (“M”) and Bolivian (“C”) types of cytoplasmic male sterility (CMS). The closer the lines are related, the smaller the differences. The new self-pollinated lines of the first group ‘SL 171’, ‘SL 172’, ‘SL 174’, ‘SL 175’, ‘SL 176’ and ‘SL 177’ were characterized by complete consolidation of the type “M” of CMS (class 0). Lines of subgroup Ia were fixed, but subgroups Ib did not completely restore the type “C” of sterility. In the second group there were identified the complete ‘SL 181’, ‘SL 182’ (class 4, 5) and incomplete ‘SL 183’, ‘SL 184’ (class 2–5) reducing agents of the type “M” of sterility. There was determined that all lines of the second group perpetuated sterility of the Bolivian type (class 0). There have been identified the lines of the third group ‘SL 191’, ‘SL 192’, ‘SL 193’, ‘SL 194’, as full reducing agents of the type “M” of CMS, two of them ‘SL 191’ and ‘SL 193’ are also complete reducing agents of the type “C” of CMS (class 4, 5). All lines of the fourth group could be classified as complete fixatives (class 0, 1) of the studied types of CMS. The results obtained will improve the efficiency of work on transferring maize hybrids to a sterile basis.

The top Bulgarian contributions to sunflower breeding

Abstract The sunflower (Helianthus annuus L.) is a fundamental oil-yielding culture for Bulgaria and the world and thus, special attention is paid to it. Various selection methods have been used over the years and as a result of successful breeding programs new sunflower forms, lines (В/А and R) and hybrids (oil and confectionery type) were created in Bulgaria. Some of these new forms have new plant architectonic, different vegetation periods, seeds with different sizes and coloration, high combining ability, resistance to diseases, the parasite Broomrape and some herbicides, high seed oil and fatty acid content, genes for restoration of fertility (Rf genes), and different types of cytoplasmic male sterility (CMS).

Floral morphology of 'Anand' rapid cycling Brassica oleracea .

Abstract The 'Anand' type of cytoplasmic male sterility (CMS) was introduced to Brassica oleracea through protoplast fusion (Cardi and Earle, 1997), providing a source of male sterility that is of value in producing F1 hybrid varieties of this species without the cold sensitivity of 'Ogura' cytoplasm. In this species, as in others in which it has been introduced, 'Anand' mitochondria are associated with flower abnormalities. The best lines have been used by commercial breeders. This paper describes 'Anand' flower abnormalities in further detail. Rapid cycling brassica with 'Anand' cytoplasm may have promise as a model system for research on floral patterning. Materials and Methods. Three lines of rapid cycling B. oleracea carrying the 'Anand' cytoplasm and one wild type were grown. The flower morphology of 'Anand' lines was classified as good in F25-F-1A, fair in F25-F-6B, and poor in F23-F-1B (Cardi and Earle, 1997). Seedlings were started in an indoor growth room, but were maintained in a naturally lit greenhouse at 20° night, 25° day during flowering. Five flowers on 5 plants of each line were examined. Results. Morphological abnormalities affected all floral parts (Table 1). There was substantial variation among flowers on individual plants and among lines but little within lines. Conclusions. "Good" flowers have large petals that push open the sepals before the carpel elongates. Female fertility could be reduced due to occlusion of the stigma or physical damage caused by the stigma pressing against the end of a sepal and kinking the style. Female fertility in some flowers was unlikely because the carpel suture failed to fuse. In some cases the edge of the split carpel was sepal-like, consistent with the absence of SEPALLATA expression. The stigma on a sepal represents the converse. Stamens were most strongly affected, with outer stamens most reduced. This whorl is the one most frequently suppressed in flowering plants (Masters, 1869). The number of stamens was reduced to varying degrees. First to be lost was one or both of the pair outside the petals. Then the outer pair inside the petals was affected. One or both of these stamens could either be lost or doubled to give 3 to 5 stamens. Again a positional cue for stamens appears to be weakened. Anther development was often limited, the expected and desired consequence of the Anand genotype. Some undehisced " good " anthers contained pollen. There is variation even among the lines initially described as " good ". Further selection among these may help identify those that are most promising for further use in hybrid production.

Short-chain fatty acids levels in human milk are not affected by holder pasteurization and high hydrostatic pressure processing.

Sterilized donor milk (DM) is frequently used for feeding preterm infants. To date, the effect of different modes of DM sterilization on short-chain fatty acids (SCFAs) remains unknown. We aimed to quantify SCFAs in DM samples after two types of milk sterilization: the Holder pasteurization (HoP) and a high hydrostatic pressure (HP) processing. Eight pooled DM samples were sterilized by HoP (62.5°C for 30 min) or processed by HP (350 MPa at 38°C). Raw DM was used as control. Six SCFAs were quantified by gas chromatography/mass spectrometry. Compared to raw milk, both HoP and HP treatment did not significantly modulate the concentration of acetate, butyrate, propionate and isovalerate in DM. Valerate and isobutyrate were undetectable in DM samples. In conclusion, both HoP and HP processing preserved milk SCFAs at their initial levels in raw human milk.

Selection of inbreds with better combining ability is instrumental in developing CMS-based heterotic hybrids in tropical carrot (Daucus carota L.)

Abstract Carrot is an important vegetable crop worldwide valued for its fleshy edible roots of varied colours. Owing to its highly cross-pollinated nature and small flower size, cytoplasmic male sterility (CMS) is being utilized for hybrid development. Among different types of male sterility, petaloid CMS is widely used for hybrid carrot breeding globally. This study aimed to develop selection criteria for parents in developing heterotic F1 hybrids using CMS lines. A large number of agro-morphological traits and Simple Sequence Repeats (genomic-SSRs) were used to assess the diversity among parental lines. We developed 60 F1 hybrids by crossing four petaloid CMS lines and 15 testers in line × tester mating design and evaluated them in replicated randomized block design trial for four vegetative and 11 economic traits. The mean squares of all the traits in line × tester interactions were significant. The estimates of genetic components of variance indicated predominance of non-additive gene action except for root maturity, root length and core diameter. The hybrids with highest per se performance also had significant positive specific combining ability effects. The root yield and root weight showed highest heterosis percentage (33%). The best performing heterotic hybrids were DCatH-5392, DCatH-700 and DCatH-9892. Correlation between genetic distance and relative heterosis of economic traits indicated no significant association and thus genetic distance could not be used to predict heterosis. As most of the yield-related traits were controlled by non-additive gene action, heterosis breeding could be potentially used along with combining ability analysis to reduce time in selection of best parents and crosses in tropical carrot.

A review of rice male sterility types and their sterility mechanisms

Male sterility plays an important role in the utilization of heterosis in rice. The establishment of male sterile lines in rice is one of the key technologies in hybrid rice production systems. The currently widely used male sterile line breeding systems mainly include: three-line hybrid rice based on cytoplasmic male sterility, two-line hybrid rice based on environmental sensitive gene male sterility, and third-generation hybrid rice based on nuclear gene male sterility Seed production system. This study reviewed the types and mechanisms of male sterility in rice, and looked forward to the development direction of hybrid rice.

Induce male sterility by CRISPR/Cas9-mediated mitochondrial genome editing in tobacco.

Genome editing has become more and more popular in animal and plant systems following the emergence of CRISPR/Cas9 technology. However, target sequence modification by CRISPR/Cas9 has not been reported in the plant mitochondrial genome, mtDNA. In plants, a type of male sterility known as cytoplasmic male sterility (CMS) has been associated with certain mitochondrial genes, but few genes have been confirmed by direct mitochondrial gene-targeted modifications. Here, the CMS-associated gene (mtatp9) in tobacco was cleaved using mitoCRISPR/Cas9 with a mitochondrial localization signal. The male-sterile mutant, with aborted stamens, exhibited only 70% of the mtDNA copy number of the wild type and exhibited an altered percentage of heteroplasmic mtatp9 alleles; otherwise, the seed setting rate of the mutant flowers was zero. Transcriptomic analyses showed that glycolysis, tricarboxylic acid cycle metabolism and the oxidative phosphorylation pathway, which are all related to aerobic respiration, were inhibited in stamens of the male-sterile gene-edited mutant. In addition, overexpression of the synonymous mutations dsmtatp9 could restore fertility to the male-sterile mutant. Our results strongly suggest that mutation of mtatp9 causes CMS and that mitoCRISPR/Cas9 can be used to modify the mitochondrial genome of plants.

Immunogenic cell death triggered by impaired deubiquitination in multiple myeloma relies on dysregulated type I interferon signaling.

Proteasome inhibition is first line therapy in multiple myeloma (MM). The immunological potential of cell death triggered by defects of the ubiquitin-proteasome system (UPS) and subsequent perturbations of protein homeostasis is, however, less well defined. In this paper, we applied the protein homeostasis disruptors bortezomib (BTZ), ONX0914, RA190 and PR619 to various MM cell lines and primary patient samples to investigate their ability to induce immunogenic cell death (ICD). Our data show that while BTZ treatment triggers sterile type I interferon (IFN) responses, exposure of the cells to ONX0914 or RA190 was mostly immunologically silent. Interestingly, inhibition of protein de-ubiquitination by PR619 was associated with the acquisition of a strong type I IFN gene signature which relied on key components of the unfolded protein and integrated stress responses including inositol-requiring enzyme 1 (IRE1), protein kinase R (PKR) and general control nonderepressible 2 (GCN2). The immunological relevance of blocking de-ubiquitination in MM was further reflected by the ability of PR619-induced apoptotic cells to facilitate dendritic cell (DC) maturation via type I IFN-dependent mechanisms. Altogether, our findings identify de-ubiquitination inhibition as a promising strategy for inducing ICD of MM to expand current available treatments.

Caries-affected dentin disinfection using Triphala, Indocyanine green, and Potassium Titanyl Phosphate laser and their effect on adhesive bond strength.

To assess the impact of new cavity sterilization types using ozone water (OW), Potassium Titanyl Phosphate laser (KTPL), Triphala, and indocyanine green photosensitizer (ICGP) on adhesive bond strength. Fifty human permanent molars were included based on the criteria of International Caries Detection and Assessment System (ICDAS) scores 4 and 5 visual examinations, surface hardness valuation, staining by a caries detector solution, and radiographs. Caries-affected dentin (CAD) samples were randomly distributed into groups based on methods of disinfection (n=10). Group 1: chlorhexidine, group 2: ow, group 3: KTPL, group 4: Triphala, and group 5: ICGP. Following disinfection, specimens were applied with Adper prime and bond NT and then restored with resin composite. All specimens were positioned in a jig of the universal testing machine for shear bond strength (SBS). The debonded samples were analyzed under a stereomicroscope at 40x magnification to determine the type of failure. Analysis of variance (ANOVA) and Tukey HSD tests were used keeping the level of significance p<0.05. The highest bond of adhesive resin was displayed by group 2 specimens cleaned using OW (16.71±0.19 MPa). Whereas, the lowest bond integrity was observed by group 5 specimens disinfected using ICGP (11.21±0.16 MPa). It was observed samples disinfected with OW (16.71±0.19 MPa) in group 2 and samples in group 4 (16.09±0.26 MPa) treated with Triphala displayed comparable outcomes of bond strength (p>0.05). It was observed that group 2 (70%) and 4 (80%) treated specimens accounted mostly for cohesive failure. However, groups 1 (80%), 3 (60%), and 5 (70%) displayed an adhesive failure pattern. OW and Triphala displayed better bond integrity of adhesive resin to CAD and therefore have the potential to be used as a cavity disinfectant in clinical settings. However, ICGP and KTPL displayed weak bonds of adhesive to CAD. More work is needed to extrapolate the findings of the present study.

The metabolome of human milk is altered differentially by Holder pasteurization and high hydrostatic pressure processing.

The milk metabolome is composed of hundreds of molecules that can impact infant development. In preterm infants, sterilized donor milk (DM) is frequently used for their feeding. We aimed to identify differences in the metabolome of DM after two types of milk sterilization: the Holder pasteurization (HoP) and a high hydrostatic pressure (HP) processing. DM samples were sterilized by HoP (62.5°C for 30 min) or processed by HP (350 MPa at 38°C). 595 milk metabolites were analyzed using an untargeted metabolomic analysis. Both treatments differentially altered several classes of compounds. The major changes noted included decreased levels of free fatty acids, phospholipid metabolites, and sphingomyelins. Decreases were more strongly noted in HP samples rather than in HoP ones. Both HoP and HP treatments increased the levels of ceramides and nucleotide compounds. The sterilization of human milk altered its metabolome especially for lipids.

STUDY OF PREVALENCE AND SOCIODEMOGRAPHIC FACTORS AFFECTING POSTPARTUM STERILIZATION AT A TERTIARY CARE CENTRE

Background: Postpartum sterilization is a type of female sterilization (permanent method) performed as a surgical procedure after vaginal delivery or during cesarean section. It is a method of choice for couples who have completed their families. This study was conducted to study trends and various sociodemographic factors affecting postpartum sterilization. A Methods: prospective study of 234 cases of postpartum sterilization performed over a period of six months from July 2022 to December 2022. Results: 234 patients opted for sterilization procedures. 190 patients had undergone cesarean tubectomy and 44 patients had undergone tubal ligation following vaginal delivery. Maximum number of patients belonged in 25-29year age group(40%). 82% of patients belonged to lower socio-economic status and only 6% of patients had all female live issues. Conclusion: Misconceptions regarding the procedure, low awareness and various cultural and religious factors play a major role regarding acceptance of postpartum sterilization

Rediscovery and conservation of Actinodaphne quercina Blume (Lauraceae), an endemic and Critically Endangered tree last collected in 1841

Actinodaphne quercina Blume (Lauraceae) is a narrow endemic tree, known only from the sterile type specimens collected in 1841 from Banten Province, Indonesia. Since its first collection, there have been no additional records of the species, and it is not present in any ex situ conservation. According to the IUCN Red List, the conservation status of A. quercina is Critically Endangered. Therefore, this study aimed to report on the rediscovery of A. quercina 180 years after its last collection. The current status of the species distribution, habitat preferences, and population size and structure was presented. The species description based on the morphology was created and taxonomic position was also defined based on a DNA barcoding analysis. Furthermore, the conservation status of the species according to the IUCN Red List Category and Criteria was updated. Plant materials were collected to serve as ex-situ living collections for the first time at the Bogor Botanic Gardens to enhance the conservation of the species.