Objective: Early gestational mammalian fetuses possess the amazing ability to heal cutaneous wounds in a scarless fashion. Over the past years, scientists have been working to decipher the mechanisms underlying this r...Objective: Early gestational mammalian fetuses possess the amazing ability to heal cutaneous wounds in a scarless fashion. Over the past years, scientists have been working to decipher the mechanisms underlying this regenerative repair. The remarkable phenotypic differences between fetal and adult healings behoves us to learn their characteristics in genetics, which represents potentially important mechanisms involved in wound repair observed in fetal versus adult tissues. In this sense, it is reasonable to construct subtractive cDNA library for future research. Methods: Middle laparotomy and hysterotomy were performed on pregnant rabbits at 20 day gestation to expose the fetal back, and a longitudinal incision through the skin was made on the back of the fetus. The traumatized fetal skin was harvested 12 hours post operation, the fetus control and traumatized adult skin specimens were taken at the same time. dscDNA was synthesized from total RNA of skin samples with SMART technology. Taking one of the three samples as Tester respectively and the other two as Drivers, we obtained 1 forward and 2 reverse hybridization products. After being amplified with selective polymerase chain reaction, the products were inserted into a vector, and then transferred into E.coli HB101. The colonies were screened afterwards. Results: The wounded fetuses were alive for a long time even after birth. Every determinant step, such as RNA isolation, cDNA synthesis, Rsa I digestion, adaptor ligation and hybridization, was well operated. Subtractive efficiency identification demonstrated that the suppression subtractive hybridization (SSH) was successful. Insertion into vector and transferring to E.coli were satisfactory. Conclusions: Instead of classic SSH, an improved SSH with 2 Drivers was applied for the experiment. Results confirmed that the improved program was reasonable and correct in both theory and practice. The subtractive cDNA library we have obtained is going to be used for future researches to reveal scarless healing related gene(s) and its (their) expression.展开更多
文摘Objective: Early gestational mammalian fetuses possess the amazing ability to heal cutaneous wounds in a scarless fashion. Over the past years, scientists have been working to decipher the mechanisms underlying this regenerative repair. The remarkable phenotypic differences between fetal and adult healings behoves us to learn their characteristics in genetics, which represents potentially important mechanisms involved in wound repair observed in fetal versus adult tissues. In this sense, it is reasonable to construct subtractive cDNA library for future research. Methods: Middle laparotomy and hysterotomy were performed on pregnant rabbits at 20 day gestation to expose the fetal back, and a longitudinal incision through the skin was made on the back of the fetus. The traumatized fetal skin was harvested 12 hours post operation, the fetus control and traumatized adult skin specimens were taken at the same time. dscDNA was synthesized from total RNA of skin samples with SMART technology. Taking one of the three samples as Tester respectively and the other two as Drivers, we obtained 1 forward and 2 reverse hybridization products. After being amplified with selective polymerase chain reaction, the products were inserted into a vector, and then transferred into E.coli HB101. The colonies were screened afterwards. Results: The wounded fetuses were alive for a long time even after birth. Every determinant step, such as RNA isolation, cDNA synthesis, Rsa I digestion, adaptor ligation and hybridization, was well operated. Subtractive efficiency identification demonstrated that the suppression subtractive hybridization (SSH) was successful. Insertion into vector and transferring to E.coli were satisfactory. Conclusions: Instead of classic SSH, an improved SSH with 2 Drivers was applied for the experiment. Results confirmed that the improved program was reasonable and correct in both theory and practice. The subtractive cDNA library we have obtained is going to be used for future researches to reveal scarless healing related gene(s) and its (their) expression.
