Lei Peng's research while affiliated with Guizhou University and other places

Attempts had been made to optimize nitrogen (N), phosphorus (P) and potassium (K) fertilization rates for increased fruit performance of Chinese cherry (Prunus pseudocerasus Lindl.). This study was conducted using a randomized block design (RBD) consisting of three factors and four levels, totaling to 14 treatments with each treatment repeated in triplicate. The results illustrated that the fertilization application increased the trunk, leaf, crown and new shoot growth, however, the optimal combination of N, P, and K (NPK) fertilization for growth varied among different parts of the young tree. Moreover, the fruit weight and size, internal quality, and fruit set rate (FSR) were positively affected by fertilization. Specifically, the no. 12 treatment (0.3 kg N + 0.4 kg P + 0.2 kg K) contained the optimal NPK combination for enhanced fruit size and cherry fruit set. Similarly, although the treatment is not the maximum of NPK concentration, the no. 12 treatment for mean daily values of Pn (MDVP) and the NPK concentration in leaf was significantly higher compared to other treatments. Additionally, Pearson’s correlation analysis suggests that the FSR was positively and significantly correlated with fruit weight (FW), fruit vertical diameter (FVD) and the soluble sugars (SS) in fruit. In general, the no. 12 treatment was the optimal NPK fertilization rates for young tree growth, fruit quality of Chinese cherry (Prunus pseudocerasus Lindl.) in the Karst region of southwest China.

Frequent somatic variations exist in pitaya (Hylocereus undatus) plants grown under abiotic stress conditions. Long terminal repeat (LTR) retrotransposons can be activated under stressful conditions and play key roles in plant genetic variation and evolution. However, whether LTR retrotransposons promotes pitaya somatic variations by regulating abiotic stress responses is still uncertain. In this study, transcriptionally active LTR retrotransposons were identified in pitaya after exposure to a number of stress factors, including in vitro culturing, osmotic changes, extreme temperatures and hormone treatments. In total, 26 LTR retrotransposon reverse transcriptase (RT) cDNA sequences were isolated and identified as belonging to 9 Ty1-copia and 4 Ty3-gypsy families. Several RT cDNA sequences had differing similarity levels with RTs from pitaya genomic DNA and other plant species, and were differentially expressed in pitaya under various stress conditions. LTR retrotransposons accounted for at least 13.07% of the pitaya genome. HuTy1P4 had a high copy number and low expression level in young stems of pitaya, and its expression level increased after exposure to hormones and abiotic stresses, including in vitro culturing, osmotic changes, cold and heat. HuTy1P4 may have been subjected to diverse transposon events in 13 pitaya plantlets successively subcultured for four cycles. Thus, the expression levels of these retrotransposons in pitaya were associated with stress responses and may be involved in the occurrence of the somaclonal variation in pitaya.