Background Mitochondrial dysfunction induced by excessive mitochondrial reactive oxygen species(ROS)damages embryonic development and leads to growth arrest.Objective The purpose of this study is to elucidate whether ...Background Mitochondrial dysfunction induced by excessive mitochondrial reactive oxygen species(ROS)damages embryonic development and leads to growth arrest.Objective The purpose of this study is to elucidate whether maternal zinc(Zn)exert protective effect on oxidative stress targeting mitochondrial function using an avian model.Result In ovo injected tert-butyl hydroperoxide(BHP)increases(P<0.05)hepatic mitochondrial ROS,malondialdehyde(MDA)and 8-hydroxy-2-deoxyguanosine(8-OHdG),and decreases(P<0.05)mitochondrial membrane potential(MMP),mitochondrial DNA(mtDNA)copy number and adenosine triphosphate(ATP)content,contributing to mitochondrial dysfunction.In vivo and in vitro studies revealed that Zn addition enhances(P<0.05)ATP synthesis and metallothionein 4(MT4)content and expression as well as alleviates(P<0.05)the BHP-induced mitochondrial ROS generation,oxidative damage and dysfunction,exerting a protective effect on mitochondrial function by enhancing antioxidant capacity and upregulating the mRNA and protein expressions of Nrf2 and PGC-1α.Conclusions The present study provides a new way to protect offspring against oxidative damage by maternal Zn supplementation through the process of targeting mitochondria involving the activation of Nrf2/PGC-1αsignaling.展开更多
This paper describes a new species of the snout moth Berastagia tainanica sp. nov. (Lepidoptera: Pyralidae) from Taiwan. From 2009 to 2016, a biology study was conducted on population dynamics and embryonic developmen...This paper describes a new species of the snout moth Berastagia tainanica sp. nov. (Lepidoptera: Pyralidae) from Taiwan. From 2009 to 2016, a biology study was conducted on population dynamics and embryonic development. Spring season is the peak of the eclosion of overwintering larvae or pupae. The average longevity of adult was 14.8 ± 6.2 days (N = 174), the average number of eggs laid was 259 ± 3 eggs/moth (N = 2), the hatching rate of eggs was 95.4% (N = 262), and the average hatching time of eggs was 99.6 ± 18.6 hours (N = 68). The average body length of males was 5.64 mm ± 0.91 mm (N = 30), and the average body length of females was 6.28 mm ± 0.84 mm (N = 30). This finding indicates that female snout moths are larger than males (Global R = 0.058, P = 0.012). The snout moth eclosion rate was 16.9 moths/100 pods in the first year (2010/2011, N = 2,224 pods) and 10.9 moths/100 pods in the second year (2014/2015, N = 6,382 pods). The pod borer rate was 31.8% (N = 707) and the seed borer rate was 41.2% (N = 3,628) in the first year, whereas the pod borer rate was 76.2% (N = 6,382) in the second year.展开更多
Cell division and differentiation after egg fertilization are critical steps in the development of embryos from single cells to multicellular individuals and are regulated by DNA methylation via its effects on gene ex...Cell division and differentiation after egg fertilization are critical steps in the development of embryos from single cells to multicellular individuals and are regulated by DNA methylation via its effects on gene expression.However,the mechanisms by which DNA methylation regulates these processes in insects remain unclear.Here,we studied the impacts of DNA methylation on early embryonic development in Bombyx mori.Genome methylation and transcriptome analysis of early embryos showed that DNA methylation events mainly occurred in the 5'region of protein metabolism-related genes.The transcription factor gene zinc finger protein 615(ZnF615)was methylated by DNA methyltransferase 1(Dnmt1)to be up-regulated and bind to protein metabolism-related genes.Dnmt1 RNA interference(RNAi)revealed that DNA methylation mainly regulated the expression of nonmethylated nutrient metabolism-related genes through ZnF615.The same sites in the ZnF615 gene were methylated in ovaries and embryos.Knockout of ZnF615 using CRISPR/Cas9 gene editing decreased the hatching rate and egg number to levels similar to that of Dnmt1 knockout.Analysis of the ZnF615 methylation rate revealed that the DNA methylation pattern in the parent ovary was maintained and doubled in the offspring embryo.Thus,Dnmt1-mediated intragenic DNA methylation of the transcription factor ZnF615 enhances its expression to ensure ovarian and embryonic development.展开更多
Photoperiod is a key environmental indicator for re gulating embryonic development,individual growth and physiological processes in aquatic animals.In this study,differences in embryonic development and performance of...Photoperiod is a key environmental indicator for re gulating embryonic development,individual growth and physiological processes in aquatic animals.In this study,differences in embryonic development and performance of newly hatched cuttlefish juvenile exposed to five different cycles of light:dark(L:D):constant light,18 L:6D,12 L:12D,6 L:18D cycles,and constant darkness were evaluated.Prolonged exposure to light induced an accelerated rate of embryonic development,particularly after the red-bead stage.Principal component analysis(PCA)revealed that red-bead stage,heartbeat,endoskeleton formation,pigment appear,and six increments of cuttlebone were the main factors contributing to the embryonic development.Meaning that the duration time of these five stages were significantly different when exposed to photoperiod regimes,which may determine the duration of the incubation period of the embryos.Long term light has also affected the incubation parameters with an increased rate in hatching and shortened the incubation and hatching periods in the 12-24-h day length range.However,constant light and darkness environment appeared to have a greater effect on the stress of embryonic development,mainly reflected in the yolk shed ratio and the inking rate in the egg capsule.Moreover,the increase in the day length has contributed to improve the growth and survival of juveniles in the 12-18-h day length range;however,juveniles exposed to constant light and darkness experienced worse re sults in terms of growth,tissue glycogen content,dige stive enzymes of the digestive glands,and metabolic enzymes of the muscles.These finding suggest that prolonged light exposure accelerates the process of embryonic development,maximum feeding time is not necessarily a condition of optimal growth,and inappropriate light cycles can disturb the body’s endogenous controls.Therefore,the optimal photoperiod for the embryos development and juvenile growth of Sepia pharaonis were 12 h and 12-18 h of day length,respectively.These results are useful for increasing the production of this species during embryo incubation and juveniles rearing in aquaculture practice.展开更多
RanBP1 is a binding protein of Ran that plays a pivotal role in nucleocytoplasmic transport.In this study,the localization and possible functions of RanBP1 were examined,during the early embryonic development of mice....RanBP1 is a binding protein of Ran that plays a pivotal role in nucleocytoplasmic transport.In this study,the localization and possible functions of RanBP1 were examined,during the early embryonic development of mice.Immunofluorescence results showed that RanBP1 was mainly localized in cytoplasm at mitosis interphase,and its concentration was lower in nucleus and the lowest in nucleolus.With the formation of the spindle in the early embryonic cells,RanBP1 condensed area took the shape of spindle microtubule,the concentration of RanBP1 was low in the site of chromosome.During the formation of nucleus,RanBP1 concentrated in nucleus and there were few dots of RanBP1 around the nucleolus.These dots were lost after the nucleus full growth.The results showed that RanBP1 had important roles in nucleocytoplasmic transport,spindle formation and nuclear assembly in the early embryonic development of mice.展开更多
Methyl-CpG(mCpG)binding domain(MBD)proteins especially bind with methylated DNA,and are involved in many important biological processes;however,the binding mechanism between insect MBD2/3 and mCpG remains unclear.In t...Methyl-CpG(mCpG)binding domain(MBD)proteins especially bind with methylated DNA,and are involved in many important biological processes;however,the binding mechanism between insect MBD2/3 and mCpG remains unclear.In this study,we identified 2 isoforms of the MBD2/3 gene in Bombyx mori,MBD2/3-S and MBD2/3-L.Binding analysis of MBD2/3-L,MBD2/3-S,and 7 mutant MBD2/3-L proteins deficient inβ1−β6 orα1 in the MBD showed thatβ2−β3-turns in theβ-sheet of the MBD are necessary for the formation of the MBD2/3–mCpG complex;furthermore,other secondary structures,namely,β4−β6 and anα-helix,play a role in stabilizing theβ-sheet structure to ensure that the MBD is able to bind mCpG.In addition,sequence alignment and binding analyses of different insect MBD2/3s indicated that insect MBD2/3s have an intact and conserved MBD that binds to the mCpG of target genes.Furthermore,MBD2/3 RNA interference results showed that MBD2/3-L plays a role in regulating B.mori embryonic development,similar to that of DNA methylation;however,MBD2/3-S withoutβ4−β6 andα-helix does not alter embryonic development.These results suggest that MBD2/3-L recognizes and binds to mCpG through the intactβ-sheet structure in its MBD,thus ensuring silkworm embryonic development.展开更多
BACKGROUND This study aimed to explore the relationship between gene mutations and early embryonic development arrest and to provide more possibilities for the diagnosis and treatment of repeated implantation failure....BACKGROUND This study aimed to explore the relationship between gene mutations and early embryonic development arrest and to provide more possibilities for the diagnosis and treatment of repeated implantation failure.CASE SUMMARY Here,we collected and described the clinical data of a patient with early embryonic development stagnation after repeated in vitro fertilization attempts for primary infertility at the Department Reproductive Center of Zaozhuang Maternal and Child Healthcare Hospital.We also detected the whole-exon gene of the patient's spouse and parents,and conducted bioinformatics analysis to determine the pathogenesis of the gene.CONCLUSION A novel mutant of the TUBB8 gene[c.602G>T(p.C201F)]was identified,and this mutant provided new data on the genotype-phenotype relationships of related diseases.展开更多
Paternal imprinted genes(H19 and Gtl2)are pivotal for prenatal embryonic development in mice.Nongrowing oocytes and sperm-or oocyte-originated haploid embryonic stem cells(ha ESCs)carrying both H19-DMR(differentially ...Paternal imprinted genes(H19 and Gtl2)are pivotal for prenatal embryonic development in mice.Nongrowing oocytes and sperm-or oocyte-originated haploid embryonic stem cells(ha ESCs)carrying both H19-DMR(differentially DNA-methylated region)and IG(intergenic)-DMR deletions that partially mimic paternal imprinting of H19-Igf2 and Dlk1-Dio3 can be employed as sperm replacement to efficiently support full-term embryonic development.However,how H19-DMR and IG-DMR act together to regulate embryonic development is still largely unknown.Here,using androgenetic ha ESC(AG-ha ESC)-mediated semi-cloned(SC)technology,we showed that paternal H19-DMR and IG-DMR are not essential for pre-implantation development of SC embryos generated through injection of AG-ha ESCs into oocytes.H19-DMR plays critical roles before 12.5 days of gestation while IG-DMR is essential for late-gestation of SC embryos.Interestingly,we found that combined deletions of H19 and H19-DMR can further improve the efficiency of normal development of SC embryos at mid-gestation compared to DKO SC embryos.Transcriptome and histology analyses revealed that H19 and H19-DMR combined deletions rescue the placental defects.Furthermore,we showed that H19,H19-DMR and IG-DMR deletions(TKO)give rise to better prenatal and postnatal embryonic development of SC embryos compared to DKO.Together,our results indicate the temporal regulation of paternal imprinted loci during embryonic development.展开更多
Objective:Collected human cumulus-oocyte complexes(COCs)are usually inseminated after 4 to 6 hours in in vitro fertilization(IVF)laboratories.The purpose of this study was to determine the effect of short-term pre-IVF...Objective:Collected human cumulus-oocyte complexes(COCs)are usually inseminated after 4 to 6 hours in in vitro fertilization(IVF)laboratories.The purpose of this study was to determine the effect of short-term pre-IVF incubation in culture medium on subsequent oocyte maturation,fertilization,and embryonic development,as well as clinical outcomes.Methods:Sixty patients were divided randomly into 2 groups,pre-IVF incubation for 5 hours:1)with(+)the designed oocyte maturation medium;2)without(-)the designed oocyte maturation medium(transferred directly to fertilization medium for 5 hours before insemination).Oocyte maturation and fertilization were assessed,and the rate of cleavage and good quality embryos were evaluated between the 2 groups on days 2 and 3,respectively.Blastocyst development was based on the remaining number of embryos on day 3,continuously cultured to day 5 after embryo transfer or frozen on day 3,and was compared between the 2 groups.Clinical pregnancy,implantation,and miscarriage rates were also compared.Results:Oocyte maturation rates did not differ between groups(85.8±14.1%vs.90.7±9.1%).However,the range of oocyte maturation rates(58.3%-100.0%)for each patient was significantly higher in the(-)group than in the(+)pre-incubation group(71.4%-100.0%).There were no differences in fertilization rates(89.9±10.0%vs.86.5±12.2%)and good quality embryos(70.8±19.1%vs.62.1±23.7%)between groups;however,the blastocyst development rates were significantly different between groups(73.1±20.1%vs.58.8±18.2%,P<0.05).Nevertheless,clinical pregnancy(62.5%vs.61.1%)and implantation(46.9%vs.47.2%)rates did not differ between groups.Conclusions:These results indicate that a short pre-IVF incubation time in the designed culture medium promotes oocyte maturation and embryonic development,suggesting that short pre-IVF incubation of COCs in the designed culture medium may be important for subsequent final oocyte maturation and early embryonic development.展开更多
Amphioctopus fangsiao is an important fishery resource in northern coastal China,and there is an interest to develop its commercial cultivation under controlled conditions.In this study,we describe the embryonic devel...Amphioctopus fangsiao is an important fishery resource in northern coastal China,and there is an interest to develop its commercial cultivation under controlled conditions.In this study,we describe the embryonic development of A.fangsiao from eggs to hatchlings,focusing on the formation of the mantle,eyes and arms.Results indicate that this species has several favorable characteristics for aquaculture,such as a short incubation period and a large body size of hatchlings.During the organogenesis,the primordia of organs,including the optic sac and arm crown,first appeared at stage VIII;then the mantle primordium,eye primordia and arm crown become visible at stage IX-X,and the rudiment of embryo(mantle,eyes and arms)was completely outlined at stage XI.The retinal pigment appeared yellowish at stage X-XI and gradually deepens in pigmentation in the subsequent stages,turning from yellowish to yellow,red,dark-red and eventually black.At stage XV,the primary lid fold,with only a circular opening remaining,covered the eye,and the dorsal ocular edge did not reach the ventral side until hatching(day 1-7).Afterwards,about 24 days after hatching,both the dorsal and ventral sides of eyelid could contract freely,with an oval and elongate slit remaining that was a miniature version of the adult morphology.The chromatophores and ink sac appeared at stage XIV.These observations provide a foundation for the reproductive biology and aquaculture of A.fangsiao and also offer an important reference for the research of embryonic development in related species.展开更多
Caveolin-1(Cav-1)isoforms,including Cav-1αand Cav-1β,were identified as integral membrane proteins and the major components of caveolae.Cav-1 proteins are highly conserved during evolution from Caenorhabditis elegan...Caveolin-1(Cav-1)isoforms,including Cav-1αand Cav-1β,were identified as integral membrane proteins and the major components of caveolae.Cav-1 proteins are highly conserved during evolution from Caenorhabditis elegans to human and are capable of interacting with many signaling molecules through their caveolin scaffolding domains to regulate the activities of multiple signaling pathways.Thus,Cav-1 plays crucial roles in the regulation of cellular proliferation,differentiation and apoptosis in a cell-specific and contextual manner.In addition,Cav-1 is essential for embryonic development of vertebrates owing to its regulation of BMP,Wnt,TGF-βand other key signaling molecules.Moreover,Cav-1 is mainly expressed in terminally differentiated cells and its abnormal expression is often associated with human diseases,such as tumor progression,cardiovascular diseases,fibrosis,lung regeneration,and diseases related to virus.In this review,we will further discuss the potential of Cav-1 as a target for disease therapy and multiple drug resistance.展开更多
Early embryonic development is a complex process.The zygote undergoes several rounds of division to form a blastocyst,and during this process,the zygote undergoes the maternal-to-zygotic transition to gain control of ...Early embryonic development is a complex process.The zygote undergoes several rounds of division to form a blastocyst,and during this process,the zygote undergoes the maternal-to-zygotic transition to gain control of embryonic development and makes two cell fate decisions to differentiate into an embryonic and two extra-embryonic lineages.With the use of new molecular biotechnologies and animal models,we can now further study the molecular mechanisms of early embryonic development and the pathological causes of early embryonic arrest.Here,we first summarize the known molecular regulatory mechanisms of early embryonic development in mice.Then we discuss the pathological factors leading to the early embryonic arrest.We hope that this review will give researchers a relatively complete view of the physiology and pathology of early embryonic development.展开更多
Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nud...Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nudibranch were collected in the eastern part of the Gulf of Thailand.The specimens were allowed to copulate and lay their egg masses under laboratory conditions.Embryonic development was monitored under a light microscope with a digital camera every day until hatching.Results:Most of the species of nudibranch collected had a single larva in each egg capsule that developed,except for Jorunna funebris,which had 1-4 larvae in each egg capsule.All the specimens had the same pattern of cell division and hatching into the water column during the veliger form.However,the species developed at different rates in each stage.Conclusions:All species in the current study had planktotrophic development except Doriprismatica atromarginata,which showed lecithotrophic development.Based on embryonic development among the nudibranchs that showed planktotrophic development,Jorunna funebris appeared to be the most advantageous species for culture development with regard to utilization and conservation in the future.展开更多
Over the past few decades,genetic selection and refined nutritional management have extensively been used to increase the growth rate and lean meat production of livestock.However,the rapid growth rates of modern bree...Over the past few decades,genetic selection and refined nutritional management have extensively been used to increase the growth rate and lean meat production of livestock.However,the rapid growth rates of modern breeds are often accompanied by a reduction in intramuscular fat deposition and increased occurrences of muscle abnor‑malities,impairing meat quality and processing functionality.Early stages of animal development set the long‑term growth trajectory of offspring.However,due to the seasonal reproductive cycles of ruminant livestock,gestational nutrient deficiencies caused by seasonal variations,frequent droughts,and unfavorable geological locations nega‑tively affect fetal development and their subsequent production efficiency and meat quality.Therefore,enrolling live‑stock in nutritional intervention strategies during gestation is effective for improving the body composition and meat quality of the offspring at harvest.These crucial early developmental stages include embryonic,fetal,and postnatal stages,which have stage‑specific effects on subsequent offspring development,body composition,and meat quality.This review summarizes contemporary research in the embryonic,fetal,and neonatal development,and the impacts of maternal nutrition on the early development and programming effects on the long‑term growth performance of livestock.Understanding the developmental and metabolic characteristics of skeletal muscle,adipose,and fibrotic tissues will facilitate the development of stage‑specific nutritional management strategies to optimize production efficiency and meat quality.展开更多
Objective:To compare embryonic development,ploidy status and clinical outcomes between fresh and frozen-thawed oocytes.Methods:This retrospective cohort study evaluated 83 fertilization cycles including both fresh and...Objective:To compare embryonic development,ploidy status and clinical outcomes between fresh and frozen-thawed oocytes.Methods:This retrospective cohort study evaluated 83 fertilization cycles including both fresh and frozen oocytes from 79 patients at the HP Fertility Center of Hai Phong International Hospital of Obstetrics and Pediatrics in Vietnam.The patient underwent several ovarian stimulation cycles to accumulate a certain number of oocytes that would be vitrified.In the last oocyte retrieval,all patient’s oocytes including both frozen and fresh would be fertilized.The outcomes included the rates of oocyte survival,cleavage embryo,blastocyst,ploidy status,pregnancy,biochemical pregnancy and clinical pregnancy.Results:The oocyte survival rate after thawing was 96.5%.No statistically significant difference was found when comparing fresh and frozen oocytes regarding fertilization rate(78.1%vs.75.5%,P=0.461),usable cleavage embryo rate(86.9%vs.87.2%,P=0.916)but usable blastocyst rate was found higher statistically in the frozen oocyte group(44.4%vs.54.0%,P=0.049).The percentages of euploid,aneuploid and mosaic embryos between the fresh group and the vitrified group had no significant differences(33.8%vs.31.6%,P=0.682;51.0%vs.54.2%,P=0.569;15.2%vs.12.4%,P=0.787;respectively).The rates of pregnancy,biochemical pregnancy and clinical pregnancy had no statistical difference(68.8%vs.64.8%,P=0.764;12.5%vs.3.6%,P=0.258;37.5%vs.46.4%,P=0.565).17 Mature oocytes are the minimum to have at least one euploid embryo.Conclusions:Oocyte vitrification does not affect embryonic,genetic and clinical results.The number of mature oocytes should be considered for fertilization in some cases.展开更多
BACKGROUND: Generally speaking, anesthesia is often used in gravid body and it has been already proved that many kind of medicine can result in malformation. OBJECTIVE: To explore embryonic skeleton development and ne...BACKGROUND: Generally speaking, anesthesia is often used in gravid body and it has been already proved that many kind of medicine can result in malformation. OBJECTIVE: To explore embryonic skeleton development and neonatal learning and memory of rats anesthetized with pentobarbital sodium in gravid rats. DESIGN: A randomized control trial. SETTING: Laboratory Animal Center of Xuzhou Medical College. MATERIALS: A total of 80 adult female SD rats, of clean grade and weighing 220-240 g, were selected in this study. The main reagents were detailed as follows: pentobarbital sodium (Shanghai Xingzhi Chemical Plant, batch number: 921019); MG-2 maze test apparatus (Zhangjiagang Biomedical Instrument Factory); somatotype microscope (Beijing Taike Instrument Co., Ltd.). METHODS: ① A total of 160 SD rats of half males and females were selected in this study. All rats were copulated. The day that the plug was checked out in the vagina next day was looked as the first day of pregnancy. Gravid rats were divided randomly into four groups, including early anesthesia group, second anesthesia group, late anesthesia group and control group with 20 in each group. Rats in the early anesthesia group were injected with 25 mg/kg soluble pentobarbitone on the 7th day of pregnancy for once; rats in the second anesthesia group were anesthetized with 25 mg/kg soluble pentobarbitone on the 7th and the 14th days of pregnancy for once; rats in the late anesthesia group were anesthetized with 25 mg/kg soluble pentobarbitone on the 14th day of pregnancy for once; rats in the control group did not treat with anything. The time of anesthetizing was controlled in 3 to 4 hours and ether was absorbed while the time was not enough. ② Half of each group was sacrificed on day 20th of pregnancy and the fetus was taken out to be stained with alizarin red S. After stained, the fetal skeleton was examined. The learning and memorizing of one-month rats that were given birth by the rest gravid rats were tested through electric mare method. Determine their study ability according to their correct rate of 90% or above of arrival at the safe area in 20 s. After they finally learned to arrive at the safe area correctly, test them once more in 24 hours and record the correct rate of 15 times. MAIN OUTCOME MEASURES: The rate of malformation in fetus and ability of learning and memory in one-month rats. RESULTS: A total of 80 female rats were anesthetized in this experiment. Totally 490 immature rats were tested with maze testing machine and 196 fetuses were stained with alizarin red S to observe the development of their skeleton. However, one of the 80 female rats was led to death because of overdose. ① Malformation experiment: Learning ability of second anesthesia group was evidently different from the control group while the other two groups were not in the electric mare method. The fetal skeleton malformation rate of three experimental groups was 87.0%, 60.9% and 17.9%, respectively, while it was 5.6% in the control group. ② Electric mare method: Times of rats which arrived at the safe regions were respectively 49.0±31.0, 68.0±35.0, 47.0±31.0 and 44.0±21.0 in early anesthesia group, second anesthesia group, late anesthesia group and control group; and then, there was significant difference between the second anesthesia group and the control group (P < 0.05). Exact rates of memory of rats were respectively (64.36±14.35)%, (62.15±18.33)%, (54.19±12.28)% and (68.24±15.91)% in early anesthesia group, second anesthesia group, late anesthesia group and control group; and then, there were no significant differences as compared with the control group (P > 0.05). CONCLUSION: The influence of anesthesia with pentobarbital sodium is obvious in fetal skeleton development and learning and memory ability.展开更多
Avian embryos,which develop within eggs,exhibit remarkable tolerance to extremely low temperatures.Despite being a common trait among all birds,the mechanisms underlying this cold tolerance in avian embryos remain lar...Avian embryos,which develop within eggs,exhibit remarkable tolerance to extremely low temperatures.Despite being a common trait among all birds,the mechanisms underlying this cold tolerance in avian embryos remain largely unknown.To gain a better understanding of this phenomenon and the coping mechanisms involved,we reviewed the literature on severe cold tolerance in embryos of both wild and domestic birds.We found that embryos of different bird orders exhibit tolerance to severe cold during their development.In response to cold stress,embryos slow down their heartbeat rates and metabolism.In severe cold temperatures,embryos can suspend these processes,entering a torpid-like state of cardiac arrest.To compensate for these developmental delays,embryos extend their regular incubation periods.Depending on their embryonic age,embryos of all bird species can tolerate acute severe cold regimes;only a few tolerate chronic severe cold regimes.We also discussed various extrinsic and intrinsic factors that affect the tolerance of bird embryos to low temperatures before and after incubation.Cold tolerance appears to be a heritable trait shared by wild and domestic embryos of all bird classes,regardless of egg size or development(altricial/precocial).Driven by environmental variability,cold tolerance in avian embryos is an optimal physiological and ecological strategy to mitigate the adverse effects of cold conditions on their development in response to fluctuating environmental temperatures.展开更多
Extending recent findings that reptile embryos seek optimal temperatures inside eggs for thermoregulation,our study demonstrates that this thermoregulatory behaviour can be affected by the amount of oxygen available t...Extending recent findings that reptile embryos seek optimal temperatures inside eggs for thermoregulation,our study demonstrates that this thermoregulatory behaviour can be affected by the amount of oxygen available to an embryo.We exposed embryos of a freshwater turtle(Mauremys reevesii)to two heat sources(an optimal temperature of 30°C and a high temperature of 33°C)under three different oxygen levels–hypoxia(12%O2),normoxia(21%O2)and hyperoxia(30%O2)–and quantified the interactive effects of temperature and oxygen availability on embryonic thermoregulatory behaviour.Our results demonstrated that,in both thermal treatments,embryos exposed to hypoxia did not move as close to the heat source and therefore selected lower temperatures than those exposed to normoxia or hyperoxia.Embryos may select low temperatures under hypoxic conditions to decrease oxygen consumption and therefore alleviate the negative impact of hypoxic stress.展开更多
BACKGROUND Embryonic hepatic artery anatomy simplifies its identification during liver transplantation.Injuries to the donor hepatic artery can cause complications in this process.The hepatic artery's complex anat...BACKGROUND Embryonic hepatic artery anatomy simplifies its identification during liver transplantation.Injuries to the donor hepatic artery can cause complications in this process.The hepatic artery's complex anatomy in adults makes this step challenging;however,during embryonic development,the artery and its branches have a simpler relationship.By restoring the embryonic hepatic artery anatomy,surgeons can reduce the risk of damage and increase the procedure's success rate.This approach can lead to improved patient outcomes and lower complication rates.CASE SUMMARY In this study,we report a case of donor liver preparation using a donor hepatic artery preparation based on human embryology.During the preparation of the hepatic artery,we restored the anatomy of the celiac trunk,superior mesenteric artery,and their branches to the state of the embryo at 5 wk.This allowed us to dissect the variant hepatic artery from the superior mesenteric artery and left gastric artery during the operation.After implanting the donor liver into the recipient,we observed normal blood flow in the donor hepatic artery,main hepatic artery,and variant hepatic artery,without any leakage.CONCLUSION Donor hepatic artery preparation based on human embryology can help reduce the incidence of donor hepatic artery injuries during liver transplantation.展开更多
基金sponsored by the National Key R&D Program of China(2022YFD1301800 and1300400)National Natural Science Foundation of China(31802080 and 3197200131)+1 种基金Key Open Laboratory of Chinese Veterinary Medicine of State Ethnic Affairs Commission&National Local Joint Engineering Research Centre for the Separation and Purification Technology of Ethnic Chinese Veterinary Medicine([2022]09)Guangdong Provincial Science and Technology Special Foundation(210723106900762 and 2021020103-2)。
文摘Background Mitochondrial dysfunction induced by excessive mitochondrial reactive oxygen species(ROS)damages embryonic development and leads to growth arrest.Objective The purpose of this study is to elucidate whether maternal zinc(Zn)exert protective effect on oxidative stress targeting mitochondrial function using an avian model.Result In ovo injected tert-butyl hydroperoxide(BHP)increases(P<0.05)hepatic mitochondrial ROS,malondialdehyde(MDA)and 8-hydroxy-2-deoxyguanosine(8-OHdG),and decreases(P<0.05)mitochondrial membrane potential(MMP),mitochondrial DNA(mtDNA)copy number and adenosine triphosphate(ATP)content,contributing to mitochondrial dysfunction.In vivo and in vitro studies revealed that Zn addition enhances(P<0.05)ATP synthesis and metallothionein 4(MT4)content and expression as well as alleviates(P<0.05)the BHP-induced mitochondrial ROS generation,oxidative damage and dysfunction,exerting a protective effect on mitochondrial function by enhancing antioxidant capacity and upregulating the mRNA and protein expressions of Nrf2 and PGC-1α.Conclusions The present study provides a new way to protect offspring against oxidative damage by maternal Zn supplementation through the process of targeting mitochondria involving the activation of Nrf2/PGC-1αsignaling.
文摘This paper describes a new species of the snout moth Berastagia tainanica sp. nov. (Lepidoptera: Pyralidae) from Taiwan. From 2009 to 2016, a biology study was conducted on population dynamics and embryonic development. Spring season is the peak of the eclosion of overwintering larvae or pupae. The average longevity of adult was 14.8 ± 6.2 days (N = 174), the average number of eggs laid was 259 ± 3 eggs/moth (N = 2), the hatching rate of eggs was 95.4% (N = 262), and the average hatching time of eggs was 99.6 ± 18.6 hours (N = 68). The average body length of males was 5.64 mm ± 0.91 mm (N = 30), and the average body length of females was 6.28 mm ± 0.84 mm (N = 30). This finding indicates that female snout moths are larger than males (Global R = 0.058, P = 0.012). The snout moth eclosion rate was 16.9 moths/100 pods in the first year (2010/2011, N = 2,224 pods) and 10.9 moths/100 pods in the second year (2014/2015, N = 6,382 pods). The pod borer rate was 31.8% (N = 707) and the seed borer rate was 41.2% (N = 3,628) in the first year, whereas the pod borer rate was 76.2% (N = 6,382) in the second year.
基金supported by the National Natural Science Foundation of China(31872286,32100374)。
文摘Cell division and differentiation after egg fertilization are critical steps in the development of embryos from single cells to multicellular individuals and are regulated by DNA methylation via its effects on gene expression.However,the mechanisms by which DNA methylation regulates these processes in insects remain unclear.Here,we studied the impacts of DNA methylation on early embryonic development in Bombyx mori.Genome methylation and transcriptome analysis of early embryos showed that DNA methylation events mainly occurred in the 5'region of protein metabolism-related genes.The transcription factor gene zinc finger protein 615(ZnF615)was methylated by DNA methyltransferase 1(Dnmt1)to be up-regulated and bind to protein metabolism-related genes.Dnmt1 RNA interference(RNAi)revealed that DNA methylation mainly regulated the expression of nonmethylated nutrient metabolism-related genes through ZnF615.The same sites in the ZnF615 gene were methylated in ovaries and embryos.Knockout of ZnF615 using CRISPR/Cas9 gene editing decreased the hatching rate and egg number to levels similar to that of Dnmt1 knockout.Analysis of the ZnF615 methylation rate revealed that the DNA methylation pattern in the parent ovary was maintained and doubled in the offspring embryo.Thus,Dnmt1-mediated intragenic DNA methylation of the transcription factor ZnF615 enhances its expression to ensure ovarian and embryonic development.
基金Supported by the Ningbo Science and Technology Bureau(No.2021Z007)the National Natural Science Foundation of China(No.32102756)。
文摘Photoperiod is a key environmental indicator for re gulating embryonic development,individual growth and physiological processes in aquatic animals.In this study,differences in embryonic development and performance of newly hatched cuttlefish juvenile exposed to five different cycles of light:dark(L:D):constant light,18 L:6D,12 L:12D,6 L:18D cycles,and constant darkness were evaluated.Prolonged exposure to light induced an accelerated rate of embryonic development,particularly after the red-bead stage.Principal component analysis(PCA)revealed that red-bead stage,heartbeat,endoskeleton formation,pigment appear,and six increments of cuttlebone were the main factors contributing to the embryonic development.Meaning that the duration time of these five stages were significantly different when exposed to photoperiod regimes,which may determine the duration of the incubation period of the embryos.Long term light has also affected the incubation parameters with an increased rate in hatching and shortened the incubation and hatching periods in the 12-24-h day length range.However,constant light and darkness environment appeared to have a greater effect on the stress of embryonic development,mainly reflected in the yolk shed ratio and the inking rate in the egg capsule.Moreover,the increase in the day length has contributed to improve the growth and survival of juveniles in the 12-18-h day length range;however,juveniles exposed to constant light and darkness experienced worse re sults in terms of growth,tissue glycogen content,dige stive enzymes of the digestive glands,and metabolic enzymes of the muscles.These finding suggest that prolonged light exposure accelerates the process of embryonic development,maximum feeding time is not necessarily a condition of optimal growth,and inappropriate light cycles can disturb the body’s endogenous controls.Therefore,the optimal photoperiod for the embryos development and juvenile growth of Sepia pharaonis were 12 h and 12-18 h of day length,respectively.These results are useful for increasing the production of this species during embryo incubation and juveniles rearing in aquaculture practice.
基金Supported by Heilongjiang Provincial Natural Science Foundation(Face Project)(C2016021)Open Project of Key Laboratory of Feed Science,Northeast Agricultural University,Heilongjiang Province(yy-2012-10)。
文摘RanBP1 is a binding protein of Ran that plays a pivotal role in nucleocytoplasmic transport.In this study,the localization and possible functions of RanBP1 were examined,during the early embryonic development of mice.Immunofluorescence results showed that RanBP1 was mainly localized in cytoplasm at mitosis interphase,and its concentration was lower in nucleus and the lowest in nucleolus.With the formation of the spindle in the early embryonic cells,RanBP1 condensed area took the shape of spindle microtubule,the concentration of RanBP1 was low in the site of chromosome.During the formation of nucleus,RanBP1 concentrated in nucleus and there were few dots of RanBP1 around the nucleolus.These dots were lost after the nucleus full growth.The results showed that RanBP1 had important roles in nucleocytoplasmic transport,spindle formation and nuclear assembly in the early embryonic development of mice.
基金funded by the National Natural Sci-ence Foundation of China,grant numbers 32100374 and 31872286.
文摘Methyl-CpG(mCpG)binding domain(MBD)proteins especially bind with methylated DNA,and are involved in many important biological processes;however,the binding mechanism between insect MBD2/3 and mCpG remains unclear.In this study,we identified 2 isoforms of the MBD2/3 gene in Bombyx mori,MBD2/3-S and MBD2/3-L.Binding analysis of MBD2/3-L,MBD2/3-S,and 7 mutant MBD2/3-L proteins deficient inβ1−β6 orα1 in the MBD showed thatβ2−β3-turns in theβ-sheet of the MBD are necessary for the formation of the MBD2/3–mCpG complex;furthermore,other secondary structures,namely,β4−β6 and anα-helix,play a role in stabilizing theβ-sheet structure to ensure that the MBD is able to bind mCpG.In addition,sequence alignment and binding analyses of different insect MBD2/3s indicated that insect MBD2/3s have an intact and conserved MBD that binds to the mCpG of target genes.Furthermore,MBD2/3 RNA interference results showed that MBD2/3-L plays a role in regulating B.mori embryonic development,similar to that of DNA methylation;however,MBD2/3-S withoutβ4−β6 andα-helix does not alter embryonic development.These results suggest that MBD2/3-L recognizes and binds to mCpG through the intactβ-sheet structure in its MBD,thus ensuring silkworm embryonic development.
基金Supported by the Shandong Provincial Traditional Chinese Medicine Science and Technology Development Program,No.C-262the 2021 Science and Technology Innovation Research Project of Shandong Maternal and Child Health Association,No.2021-19-24.
文摘BACKGROUND This study aimed to explore the relationship between gene mutations and early embryonic development arrest and to provide more possibilities for the diagnosis and treatment of repeated implantation failure.CASE SUMMARY Here,we collected and described the clinical data of a patient with early embryonic development stagnation after repeated in vitro fertilization attempts for primary infertility at the Department Reproductive Center of Zaozhuang Maternal and Child Healthcare Hospital.We also detected the whole-exon gene of the patient's spouse and parents,and conducted bioinformatics analysis to determine the pathogenesis of the gene.CONCLUSION A novel mutant of the TUBB8 gene[c.602G>T(p.C201F)]was identified,and this mutant provided new data on the genotype-phenotype relationships of related diseases.
基金partly supported by the Genome Tagging Project,Fountain-Valley Life Sciences Fund of University of Chinese Academy of Sciences Education Foundation and grants from the Chinese Academy of Sciences(XDB19010204,OYZDJ-SSW-SMC023 and Facility-based Open Research Program)the National Natural Science Foundation of China(31530048,81672117,31730062,31821004,and31601163)+1 种基金the Ministry of Science and Technology of China(2019YFA0109900)Shanghai Municipal Commission for Science and Technology(16JC1420500,17JC1420102,17JC1400900,and17411954900)
文摘Paternal imprinted genes(H19 and Gtl2)are pivotal for prenatal embryonic development in mice.Nongrowing oocytes and sperm-or oocyte-originated haploid embryonic stem cells(ha ESCs)carrying both H19-DMR(differentially DNA-methylated region)and IG(intergenic)-DMR deletions that partially mimic paternal imprinting of H19-Igf2 and Dlk1-Dio3 can be employed as sperm replacement to efficiently support full-term embryonic development.However,how H19-DMR and IG-DMR act together to regulate embryonic development is still largely unknown.Here,using androgenetic ha ESC(AG-ha ESC)-mediated semi-cloned(SC)technology,we showed that paternal H19-DMR and IG-DMR are not essential for pre-implantation development of SC embryos generated through injection of AG-ha ESCs into oocytes.H19-DMR plays critical roles before 12.5 days of gestation while IG-DMR is essential for late-gestation of SC embryos.Interestingly,we found that combined deletions of H19 and H19-DMR can further improve the efficiency of normal development of SC embryos at mid-gestation compared to DKO SC embryos.Transcriptome and histology analyses revealed that H19 and H19-DMR combined deletions rescue the placental defects.Furthermore,we showed that H19,H19-DMR and IG-DMR deletions(TKO)give rise to better prenatal and postnatal embryonic development of SC embryos compared to DKO.Together,our results indicate the temporal regulation of paternal imprinted loci during embryonic development.
基金National Natural Science Foundation of China(Grant No.81401271)
文摘Objective:Collected human cumulus-oocyte complexes(COCs)are usually inseminated after 4 to 6 hours in in vitro fertilization(IVF)laboratories.The purpose of this study was to determine the effect of short-term pre-IVF incubation in culture medium on subsequent oocyte maturation,fertilization,and embryonic development,as well as clinical outcomes.Methods:Sixty patients were divided randomly into 2 groups,pre-IVF incubation for 5 hours:1)with(+)the designed oocyte maturation medium;2)without(-)the designed oocyte maturation medium(transferred directly to fertilization medium for 5 hours before insemination).Oocyte maturation and fertilization were assessed,and the rate of cleavage and good quality embryos were evaluated between the 2 groups on days 2 and 3,respectively.Blastocyst development was based on the remaining number of embryos on day 3,continuously cultured to day 5 after embryo transfer or frozen on day 3,and was compared between the 2 groups.Clinical pregnancy,implantation,and miscarriage rates were also compared.Results:Oocyte maturation rates did not differ between groups(85.8±14.1%vs.90.7±9.1%).However,the range of oocyte maturation rates(58.3%-100.0%)for each patient was significantly higher in the(-)group than in the(+)pre-incubation group(71.4%-100.0%).There were no differences in fertilization rates(89.9±10.0%vs.86.5±12.2%)and good quality embryos(70.8±19.1%vs.62.1±23.7%)between groups;however,the blastocyst development rates were significantly different between groups(73.1±20.1%vs.58.8±18.2%,P<0.05).Nevertheless,clinical pregnancy(62.5%vs.61.1%)and implantation(46.9%vs.47.2%)rates did not differ between groups.Conclusions:These results indicate that a short pre-IVF incubation time in the designed culture medium promotes oocyte maturation and embryonic development,suggesting that short pre-IVF incubation of COCs in the designed culture medium may be important for subsequent final oocyte maturation and early embryonic development.
基金the following research grants:The Fundamental Research Funds for the Central Universities(201822022)Fisheries Technological Innovation and Promotion Project of Jiangsu Province(Y2017-7).
文摘Amphioctopus fangsiao is an important fishery resource in northern coastal China,and there is an interest to develop its commercial cultivation under controlled conditions.In this study,we describe the embryonic development of A.fangsiao from eggs to hatchlings,focusing on the formation of the mantle,eyes and arms.Results indicate that this species has several favorable characteristics for aquaculture,such as a short incubation period and a large body size of hatchlings.During the organogenesis,the primordia of organs,including the optic sac and arm crown,first appeared at stage VIII;then the mantle primordium,eye primordia and arm crown become visible at stage IX-X,and the rudiment of embryo(mantle,eyes and arms)was completely outlined at stage XI.The retinal pigment appeared yellowish at stage X-XI and gradually deepens in pigmentation in the subsequent stages,turning from yellowish to yellow,red,dark-red and eventually black.At stage XV,the primary lid fold,with only a circular opening remaining,covered the eye,and the dorsal ocular edge did not reach the ventral side until hatching(day 1-7).Afterwards,about 24 days after hatching,both the dorsal and ventral sides of eyelid could contract freely,with an oval and elongate slit remaining that was a miniature version of the adult morphology.The chromatophores and ink sac appeared at stage XIV.These observations provide a foundation for the reproductive biology and aquaculture of A.fangsiao and also offer an important reference for the research of embryonic development in related species.
文摘Caveolin-1(Cav-1)isoforms,including Cav-1αand Cav-1β,were identified as integral membrane proteins and the major components of caveolae.Cav-1 proteins are highly conserved during evolution from Caenorhabditis elegans to human and are capable of interacting with many signaling molecules through their caveolin scaffolding domains to regulate the activities of multiple signaling pathways.Thus,Cav-1 plays crucial roles in the regulation of cellular proliferation,differentiation and apoptosis in a cell-specific and contextual manner.In addition,Cav-1 is essential for embryonic development of vertebrates owing to its regulation of BMP,Wnt,TGF-βand other key signaling molecules.Moreover,Cav-1 is mainly expressed in terminally differentiated cells and its abnormal expression is often associated with human diseases,such as tumor progression,cardiovascular diseases,fibrosis,lung regeneration,and diseases related to virus.In this review,we will further discuss the potential of Cav-1 as a target for disease therapy and multiple drug resistance.
基金the National Key Research and Development Program of China(2021YFC2700100)the National Natural Science Foundation of China(32130029,81725006,82171643,81971450,and 82101746).
文摘Early embryonic development is a complex process.The zygote undergoes several rounds of division to form a blastocyst,and during this process,the zygote undergoes the maternal-to-zygotic transition to gain control of embryonic development and makes two cell fate decisions to differentiate into an embryonic and two extra-embryonic lineages.With the use of new molecular biotechnologies and animal models,we can now further study the molecular mechanisms of early embryonic development and the pathological causes of early embryonic arrest.Here,we first summarize the known molecular regulatory mechanisms of early embryonic development in mice.Then we discuss the pathological factors leading to the early embryonic arrest.We hope that this review will give researchers a relatively complete view of the physiology and pathology of early embryonic development.
基金funded by the Center of Advanced Studies in Tropical Natural Resources,KU Institute for Advanced Studies,Kasetsart University and Faculty of Technology,Mahasarakham University.
文摘Objective:To find the possible way to predict the mode of embryonic development of nudibranchs,focusing on egg mass characteristics,embryonic development,and shell patterns of the veligers.Methods:Eight species of nudibranch were collected in the eastern part of the Gulf of Thailand.The specimens were allowed to copulate and lay their egg masses under laboratory conditions.Embryonic development was monitored under a light microscope with a digital camera every day until hatching.Results:Most of the species of nudibranch collected had a single larva in each egg capsule that developed,except for Jorunna funebris,which had 1-4 larvae in each egg capsule.All the specimens had the same pattern of cell division and hatching into the water column during the veliger form.However,the species developed at different rates in each stage.Conclusions:All species in the current study had planktotrophic development except Doriprismatica atromarginata,which showed lecithotrophic development.Based on embryonic development among the nudibranchs that showed planktotrophic development,Jorunna funebris appeared to be the most advantageous species for culture development with regard to utilization and conservation in the future.
基金supported by the Agriculture and Food Research Initiative Competitive Grants(No.2015-67015-23219 and 2016-68006-24634)from the USDA National Institute of Food and Agriculture.
文摘Over the past few decades,genetic selection and refined nutritional management have extensively been used to increase the growth rate and lean meat production of livestock.However,the rapid growth rates of modern breeds are often accompanied by a reduction in intramuscular fat deposition and increased occurrences of muscle abnor‑malities,impairing meat quality and processing functionality.Early stages of animal development set the long‑term growth trajectory of offspring.However,due to the seasonal reproductive cycles of ruminant livestock,gestational nutrient deficiencies caused by seasonal variations,frequent droughts,and unfavorable geological locations nega‑tively affect fetal development and their subsequent production efficiency and meat quality.Therefore,enrolling live‑stock in nutritional intervention strategies during gestation is effective for improving the body composition and meat quality of the offspring at harvest.These crucial early developmental stages include embryonic,fetal,and postnatal stages,which have stage‑specific effects on subsequent offspring development,body composition,and meat quality.This review summarizes contemporary research in the embryonic,fetal,and neonatal development,and the impacts of maternal nutrition on the early development and programming effects on the long‑term growth performance of livestock.Understanding the developmental and metabolic characteristics of skeletal muscle,adipose,and fibrotic tissues will facilitate the development of stage‑specific nutritional management strategies to optimize production efficiency and meat quality.
文摘Objective:To compare embryonic development,ploidy status and clinical outcomes between fresh and frozen-thawed oocytes.Methods:This retrospective cohort study evaluated 83 fertilization cycles including both fresh and frozen oocytes from 79 patients at the HP Fertility Center of Hai Phong International Hospital of Obstetrics and Pediatrics in Vietnam.The patient underwent several ovarian stimulation cycles to accumulate a certain number of oocytes that would be vitrified.In the last oocyte retrieval,all patient’s oocytes including both frozen and fresh would be fertilized.The outcomes included the rates of oocyte survival,cleavage embryo,blastocyst,ploidy status,pregnancy,biochemical pregnancy and clinical pregnancy.Results:The oocyte survival rate after thawing was 96.5%.No statistically significant difference was found when comparing fresh and frozen oocytes regarding fertilization rate(78.1%vs.75.5%,P=0.461),usable cleavage embryo rate(86.9%vs.87.2%,P=0.916)but usable blastocyst rate was found higher statistically in the frozen oocyte group(44.4%vs.54.0%,P=0.049).The percentages of euploid,aneuploid and mosaic embryos between the fresh group and the vitrified group had no significant differences(33.8%vs.31.6%,P=0.682;51.0%vs.54.2%,P=0.569;15.2%vs.12.4%,P=0.787;respectively).The rates of pregnancy,biochemical pregnancy and clinical pregnancy had no statistical difference(68.8%vs.64.8%,P=0.764;12.5%vs.3.6%,P=0.258;37.5%vs.46.4%,P=0.565).17 Mature oocytes are the minimum to have at least one euploid embryo.Conclusions:Oocyte vitrification does not affect embryonic,genetic and clinical results.The number of mature oocytes should be considered for fertilization in some cases.
文摘BACKGROUND: Generally speaking, anesthesia is often used in gravid body and it has been already proved that many kind of medicine can result in malformation. OBJECTIVE: To explore embryonic skeleton development and neonatal learning and memory of rats anesthetized with pentobarbital sodium in gravid rats. DESIGN: A randomized control trial. SETTING: Laboratory Animal Center of Xuzhou Medical College. MATERIALS: A total of 80 adult female SD rats, of clean grade and weighing 220-240 g, were selected in this study. The main reagents were detailed as follows: pentobarbital sodium (Shanghai Xingzhi Chemical Plant, batch number: 921019); MG-2 maze test apparatus (Zhangjiagang Biomedical Instrument Factory); somatotype microscope (Beijing Taike Instrument Co., Ltd.). METHODS: ① A total of 160 SD rats of half males and females were selected in this study. All rats were copulated. The day that the plug was checked out in the vagina next day was looked as the first day of pregnancy. Gravid rats were divided randomly into four groups, including early anesthesia group, second anesthesia group, late anesthesia group and control group with 20 in each group. Rats in the early anesthesia group were injected with 25 mg/kg soluble pentobarbitone on the 7th day of pregnancy for once; rats in the second anesthesia group were anesthetized with 25 mg/kg soluble pentobarbitone on the 7th and the 14th days of pregnancy for once; rats in the late anesthesia group were anesthetized with 25 mg/kg soluble pentobarbitone on the 14th day of pregnancy for once; rats in the control group did not treat with anything. The time of anesthetizing was controlled in 3 to 4 hours and ether was absorbed while the time was not enough. ② Half of each group was sacrificed on day 20th of pregnancy and the fetus was taken out to be stained with alizarin red S. After stained, the fetal skeleton was examined. The learning and memorizing of one-month rats that were given birth by the rest gravid rats were tested through electric mare method. Determine their study ability according to their correct rate of 90% or above of arrival at the safe area in 20 s. After they finally learned to arrive at the safe area correctly, test them once more in 24 hours and record the correct rate of 15 times. MAIN OUTCOME MEASURES: The rate of malformation in fetus and ability of learning and memory in one-month rats. RESULTS: A total of 80 female rats were anesthetized in this experiment. Totally 490 immature rats were tested with maze testing machine and 196 fetuses were stained with alizarin red S to observe the development of their skeleton. However, one of the 80 female rats was led to death because of overdose. ① Malformation experiment: Learning ability of second anesthesia group was evidently different from the control group while the other two groups were not in the electric mare method. The fetal skeleton malformation rate of three experimental groups was 87.0%, 60.9% and 17.9%, respectively, while it was 5.6% in the control group. ② Electric mare method: Times of rats which arrived at the safe regions were respectively 49.0±31.0, 68.0±35.0, 47.0±31.0 and 44.0±21.0 in early anesthesia group, second anesthesia group, late anesthesia group and control group; and then, there was significant difference between the second anesthesia group and the control group (P < 0.05). Exact rates of memory of rats were respectively (64.36±14.35)%, (62.15±18.33)%, (54.19±12.28)% and (68.24±15.91)% in early anesthesia group, second anesthesia group, late anesthesia group and control group; and then, there were no significant differences as compared with the control group (P > 0.05). CONCLUSION: The influence of anesthesia with pentobarbital sodium is obvious in fetal skeleton development and learning and memory ability.
基金supported by the National Natural Science Foundation of China(NSFC,31971413)granted to DLthe Second Tibetan Plateau Scientific Expedition and Research Program(STEP,2019QZKK0501)granted to DL。
文摘Avian embryos,which develop within eggs,exhibit remarkable tolerance to extremely low temperatures.Despite being a common trait among all birds,the mechanisms underlying this cold tolerance in avian embryos remain largely unknown.To gain a better understanding of this phenomenon and the coping mechanisms involved,we reviewed the literature on severe cold tolerance in embryos of both wild and domestic birds.We found that embryos of different bird orders exhibit tolerance to severe cold during their development.In response to cold stress,embryos slow down their heartbeat rates and metabolism.In severe cold temperatures,embryos can suspend these processes,entering a torpid-like state of cardiac arrest.To compensate for these developmental delays,embryos extend their regular incubation periods.Depending on their embryonic age,embryos of all bird species can tolerate acute severe cold regimes;only a few tolerate chronic severe cold regimes.We also discussed various extrinsic and intrinsic factors that affect the tolerance of bird embryos to low temperatures before and after incubation.Cold tolerance appears to be a heritable trait shared by wild and domestic embryos of all bird classes,regardless of egg size or development(altricial/precocial).Driven by environmental variability,cold tolerance in avian embryos is an optimal physiological and ecological strategy to mitigate the adverse effects of cold conditions on their development in response to fluctuating environmental temperatures.
基金This work was supported by grants from the National Natural Science Foundation of China(32030013,31821001).
文摘Extending recent findings that reptile embryos seek optimal temperatures inside eggs for thermoregulation,our study demonstrates that this thermoregulatory behaviour can be affected by the amount of oxygen available to an embryo.We exposed embryos of a freshwater turtle(Mauremys reevesii)to two heat sources(an optimal temperature of 30°C and a high temperature of 33°C)under three different oxygen levels–hypoxia(12%O2),normoxia(21%O2)and hyperoxia(30%O2)–and quantified the interactive effects of temperature and oxygen availability on embryonic thermoregulatory behaviour.Our results demonstrated that,in both thermal treatments,embryos exposed to hypoxia did not move as close to the heat source and therefore selected lower temperatures than those exposed to normoxia or hyperoxia.Embryos may select low temperatures under hypoxic conditions to decrease oxygen consumption and therefore alleviate the negative impact of hypoxic stress.
文摘BACKGROUND Embryonic hepatic artery anatomy simplifies its identification during liver transplantation.Injuries to the donor hepatic artery can cause complications in this process.The hepatic artery's complex anatomy in adults makes this step challenging;however,during embryonic development,the artery and its branches have a simpler relationship.By restoring the embryonic hepatic artery anatomy,surgeons can reduce the risk of damage and increase the procedure's success rate.This approach can lead to improved patient outcomes and lower complication rates.CASE SUMMARY In this study,we report a case of donor liver preparation using a donor hepatic artery preparation based on human embryology.During the preparation of the hepatic artery,we restored the anatomy of the celiac trunk,superior mesenteric artery,and their branches to the state of the embryo at 5 wk.This allowed us to dissect the variant hepatic artery from the superior mesenteric artery and left gastric artery during the operation.After implanting the donor liver into the recipient,we observed normal blood flow in the donor hepatic artery,main hepatic artery,and variant hepatic artery,without any leakage.CONCLUSION Donor hepatic artery preparation based on human embryology can help reduce the incidence of donor hepatic artery injuries during liver transplantation.
