Reversible phosphorylation plays a crucial role in regulating protein activities and functions. Sexual reproduction directly affects yield of most agricultural crops. As the male reproductive organ, anther generates microspores (pollen), delivering gametes (sperms) to complete double fertilization in higher plants. Here, we took the advantage of Nano UHPLC-MS/MS to analyze maize (Zea mays, B73) early anthers at proteomic and phosphoproteomic levels, to explore the protein and phosphorylation modification regulatory networks controlling maize anther development. Our proteomic analysis identified 3 016 unique peptides, belonging to 1 032 maize proteins. MapMan analysis revealed variously potential proteins associated with maize anther development, such as receptor-like kinases (GRMZM2G082823_P01 and GRMZM5G805485_P01). Using phospho-peptides enriched by TiO2 affinity chromatography, our phosphoproteomic analysis detected 257 phospho-peptides from 210 phosphoproteins, discovering 223 phosphosites. Compared to the 86 maize phosphoproteins collected in the Plant Protein Phosphorylation Data Base (P3DB), we found that 203 phosphoproteins and 218 phosphosites were not revealed before. Further bioinformatics analysis revealed that phosphorylation of 14-3-3 proteins, kinases, phosphatases, transcription factors, cell cycle and chromatin structure related proteins might play important roles in regulating normal anther development in maize. Our findings not only enlarged the maize phosphoproteome data, but also provided information for analyzing the molecular mechanism controlling maize anther development at genetic and biochemical levels.
Crops, Agricultural ; chemistry ; Phosphoproteins ; chemistry ; Phosphorylation ; Plant Proteins ; chemistry ; Pollen ; chemistry ; Proteome ; Tandem Mass Spectrometry ; Zea mays ; chemistry

OBJECTIVE： To study the relationships of polymorphism of MTRR gene rs1801394 locus and SLCO1B1 gene rs11045879 locus with drug concentration of methotrexate （MTX） and high-dose MTX （HD-MTX）-induced ADR in acute lymphoblastic leukemia （ALL） children. METHODS： From Oct. 2015 to Sept. 2018， 70 ALL hospitalized children of Han nationality in Sichuan area who received HD-MTX treatment and were in consolidation chemotherapy were selected retrospectively from Sichuan People’s Hospital. The blood concentration of MTX at 48 and 72 hours after administration was measured by EMIT. The genetic typing of MTRR gene rs1801394 locus and SLCO1B1 gene rs11045879 locus were detected with real-time PCR. The relationships of the polymorphism of MTRR gene and SLCO1B1 gene with MTX blood concentration [dose-corrected concentration （c48 h/D，48 h）， the proportion of children with different concentration of MTX （≤0.1， ＞0.1 μmol/L）] and ADR （such as myelosuppression， liver function damage， gastrointestinal response， mucosal damage， rash， etc.） were analyzed. Binary Logistic regression analysis for the correlation of ADR with different influencing factors （gene polymor- phism， blood concentration of MTX， immunophenotyping， body mass index， etc.） was carried out by Wald method. RESULTS： Totally 31， 32， 7 children with MTRR gene AA， AG and GG genotype， while 23， 37， 10 children with SLCO1B1 gene TT， TC and CC genotype were detected. The distribution of each genotype in 70 children conformed to Hardy-Weinberg equilibrium （P＞0.05）. There was no significant difference in c48 h/D（48 h） of children and the proportion of children with different concentration of MTX （72 h） among difterent genotypes of MTRR and SLCO1B1 gene （P＞0.05）. There was statistical significance in the incidence of liver function injury in children with different genotypes of MTRR gene （P＜0.05）， and the AA genotype was significantly higher than the AG+GG genotype （P＜0.05）. There was no correlation of MTRR gene polymorphism with the incidence of other ADR， neither SLCO1B1 gene polymorphism with the incidence of ADR （P＞0.05）. The results of Binary Logistic regression analysis showed that liver function damage in ALL children was related to the gene polymorphism of MTRR； gastrointestinal reaction was related to whether the plasma concentration was more than 0.1 μmol/L at 72 h； mucosal damage was related to the immune type and BMI of children； the occurrence of skin allergy was correlated with body weight of children（P＜0.05）. CONCLUSIONS： Gene polymorphism of MTRR rs1801394 locus may associated with the occurrence of HD-HTX-induced liver function injury in ALL children， but its polymorphism and gene polymorphism of SLCO1B1 rs11045879 locus are not related to MTX blood concentration in ALL children.