Red blood cells play an essential role in the immune system.Moreover,red blood cell count(RBC) is an important clinical indicator of various diseases,including anemia,type 2 diabetes and the metabolic syndrome.Thus,it...Red blood cells play an essential role in the immune system.Moreover,red blood cell count(RBC) is an important clinical indicator of various diseases,including anemia,type 2 diabetes and the metabolic syndrome.Thus,it is necessary to reveal the genetic mechanism of RBC for animal disease resistance breeding.However,quite a few studies had focused on porcine RBC,especially at different stages.Thus,studies on porcine RBC at different stages are needed for disease resistant breeding.In this study,the porcine RBC of 20-,33-,and 80-day old were measured,and genetic parameter estimation and genome-wide association study(GWAS) were both performed.As a result,the heritability was about 0.6 at the early stages,much higher than that at 80 days.Nine novel genome wide significant single nucleotide polymorphisms(SNPs),located at Sus scrofa chromosome(SSC)3,4,8,9,10 and 15,respectively,were identified.Further,TGFβ2,TMCC2 and PPP1 R15 B genes were identified as important candidate genes of porcine red blood cell count.So different SNPs and candidate genes were found significantly associated with porcine RBC at different stages,suggesting that different genes might play key roles on porcine RBC at different stages.Overall,new evidences were offered in this study for the genetic bases of animal RBC,and that the SNPs and candidate genes would be useful for disease resistant breeding of pig.展开更多
Background There are few researches for the healing of metaphyseal fractures; moreover,the animal models to study the metaphyseal fractures are usually made by the oscillating saw osteotomy without reliable fixation,w...Background There are few researches for the healing of metaphyseal fractures; moreover,the animal models to study the metaphyseal fractures are usually made by the oscillating saw osteotomy without reliable fixation,which is not in accordance with our current clinical practice.In this study,we established a new model to observe the healing process of metaphyseal fractures.Methods Eighteen New Zealand rabbits were used in the study.The fracture model was created by splitting the medial tibial plateau in rabbits,then reset,and fixed with compression screws.At 1,2,3,4,6,and 8 weeks postoperatively,the tibial specimens were collected; firstly,a general observation and an X-ray examination of the specimens was done,and then they were embedded in methylmethacrylate and cut into sections with hard tissue slicer.The sections were stained with Giemsa reagent and examined under light microscopy.Results There was no fracture displacement in the tibial specimens of all time points,except for one showing a collapse.No external callus formation could be observed by X-ray and general examination.After 1 week of the operation,the fracture gap was filled by mesenchymal tissue; 2 weeks postoperatively,a large number of woven bones were formed; from the third week onwards,the woven bone began to turn into lamellar bone,and new trabecular structure began to form.In all of the slices,no obvious chondrocytes formed in fracture areas; thus,there was no endochondral ossification.Conclusions This model was an ideal fracture animal model and suitable for the study of metaphyseal fracture healing.The X-ray and histological images demonstrated that metaphyseal fracture healing was a process of direct bone healing through intramembranous bone formation under the conditions of minor trauma,good reduction,and firm fixation.展开更多
基金supported by the National Natural Science Foundation of China (31572375, NSFC-CGIAR31361140365)the Fundamental Research Funds for the Central Universities of China (2662016PY006)+2 种基金the National High Technology Research and Development Program of China (2013AA102502)the earmarked fund for China Agriculture Research System (CARS-35)the Dabeinong Group Promoted Project for Young Scholar of Huazhong Agricultural University, China (2017DBN019)
文摘Red blood cells play an essential role in the immune system.Moreover,red blood cell count(RBC) is an important clinical indicator of various diseases,including anemia,type 2 diabetes and the metabolic syndrome.Thus,it is necessary to reveal the genetic mechanism of RBC for animal disease resistance breeding.However,quite a few studies had focused on porcine RBC,especially at different stages.Thus,studies on porcine RBC at different stages are needed for disease resistant breeding.In this study,the porcine RBC of 20-,33-,and 80-day old were measured,and genetic parameter estimation and genome-wide association study(GWAS) were both performed.As a result,the heritability was about 0.6 at the early stages,much higher than that at 80 days.Nine novel genome wide significant single nucleotide polymorphisms(SNPs),located at Sus scrofa chromosome(SSC)3,4,8,9,10 and 15,respectively,were identified.Further,TGFβ2,TMCC2 and PPP1 R15 B genes were identified as important candidate genes of porcine red blood cell count.So different SNPs and candidate genes were found significantly associated with porcine RBC at different stages,suggesting that different genes might play key roles on porcine RBC at different stages.Overall,new evidences were offered in this study for the genetic bases of animal RBC,and that the SNPs and candidate genes would be useful for disease resistant breeding of pig.
基金This research was funded by grants from the Chinese National Natural Science Fund for Outstanding Youth (No.30625036),Chinese "973 Project Planning" (No.2005CB522604),National Natural Science Foundation of China (Nos.81171146,30971526,31040043),Beijing Natural Science Foundation (No.7113170),and Doctoral Fund of Ministry of Education of China (No.20090001120096).
文摘Background There are few researches for the healing of metaphyseal fractures; moreover,the animal models to study the metaphyseal fractures are usually made by the oscillating saw osteotomy without reliable fixation,which is not in accordance with our current clinical practice.In this study,we established a new model to observe the healing process of metaphyseal fractures.Methods Eighteen New Zealand rabbits were used in the study.The fracture model was created by splitting the medial tibial plateau in rabbits,then reset,and fixed with compression screws.At 1,2,3,4,6,and 8 weeks postoperatively,the tibial specimens were collected; firstly,a general observation and an X-ray examination of the specimens was done,and then they were embedded in methylmethacrylate and cut into sections with hard tissue slicer.The sections were stained with Giemsa reagent and examined under light microscopy.Results There was no fracture displacement in the tibial specimens of all time points,except for one showing a collapse.No external callus formation could be observed by X-ray and general examination.After 1 week of the operation,the fracture gap was filled by mesenchymal tissue; 2 weeks postoperatively,a large number of woven bones were formed; from the third week onwards,the woven bone began to turn into lamellar bone,and new trabecular structure began to form.In all of the slices,no obvious chondrocytes formed in fracture areas; thus,there was no endochondral ossification.Conclusions This model was an ideal fracture animal model and suitable for the study of metaphyseal fracture healing.The X-ray and histological images demonstrated that metaphyseal fracture healing was a process of direct bone healing through intramembranous bone formation under the conditions of minor trauma,good reduction,and firm fixation.
