Keasinee Tongmark scite author profile

Rice (Oryza sativa L.) is one of the most important food crops, providing food for nearly half of the world population. Rice grain yields are affected by temperature changes. Temperature stresses, both low and high, affect male reproductive development, resulting in yield reduction. Thermosensitive genic male sterility (TGMS) rice is sterile at high temperature and fertile at low temperature conditions, facilitating hybrid production, and is a good model to study effects of temperatures on male development. Semithin sections of the anthers of a TGMS rice line under low (fertile) and high (sterile) temperature conditions showed differences starting from the dyad stage, suggesting that genes involved in male development play a role during postmeiotic microspore development. Using RNA sequencing (RNA-Seq), transcriptional profiling of TGMS rice panicles at the dyad stage revealed 232 genes showing differential expression (DEGs) in a sterile, compared to a fertile, condition. Using qRT-PCR to study expression of 20 selected DEGs using panicles of TGMS and wild type rice plants grown under low and high temperature conditions, revealed that six out of the 20 selected genes may be unique to TGMS, while the other 14 genes showed common responses to temperatures in both TGMS and wild-type rice plants. The results presented here would be useful for further investigation into molecular mechanisms controlling TGMS and rice responses to temperature alteration.

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Development of high yielding two-line hybrid rice in Thailand

Tongmark¹,

Chakhonkaen²,

Sangarwut³

et al. 2021

ScienceAsia

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Thailand is a major producer and exporter of rice. However, the yield per hectare of Thai rice is lower compared with other Southeast Asian countries. We hypothesized that higher-yielding hybrids of Thai varieties could be generated using the temperature-sensitive genic male-sterility (TGMS) two-line hybrid technique. In this study, we evaluated inter-station yield of 14 hybrids generated from two IRRI TGMS rice lines crossed with 13 Thai elite lines/cultivars and planted at different locations in Thailand for two years. One hybrid (Hyb1) showed at least 10% greater yield than the mean of four high-yielding inbred reference cultivars for all tested years and locations. Eight functional markers controlling agronomically important traits were used to genotype the parents and Hyb1. Positive alleles associated with the important traits were identified among the parents, and four markers were found to be polymorphic. Because contaminants in hybrid seed lots can greatly decrease yield, two of the polymorphic markers were used to assess seed purity of Hyb1. No contaminants were detected, i.e. indicating 100% seed purity for the hybrid. The results obtained here will be useful for developing high yielding rice cultivars in Thailand.

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Transcriptome Analysis Reveals Genes Involved in Responses of Eucalyptus to Gall Wasp Infestation

et al. 2023

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Leptocybe invasa is a gall wasp causing significant damage to Eucalyptus species. This study used RNA sequencing (RNA-seq) to identify differentially expressed genes (DEGs) associated with early L. invasa infestation in eucalyptus parents and their F1-progenies. A total of 14,648 significant DEGs were identified from U22-tolerant and C153-susceptible parents, and extremely tolerant and susceptible pools of their F1-progenies. A total of 324/632 and 182/205 DEGs specific for the tolerant group and the susceptible group were up-regulated, respectively. Expression analysis by qRT-PCR of the selected DEGs was comparable with the results of RNA-seq. Expression analysis of the selected genes using the top five progenies from each pool was consistent with that in the parents. Three genes (RCA, SUI1, GCN5) were up-regulated after infestation in all tested tolerant plants, suggesting their important roles in the tolerant phenotype. Using expression and STRING analysis, our results suggest that early response at three days after gall wasp infestation increased protein and terpenoid synthesis, and increased transportation of these molecules. In addition, wounding also increased photosynthesis and glycolysis. These processes involved the interaction of several plant hormones, such as JA, Auxin, and ABA. The information obtained from this study could be useful for future Eucalyptus breeding programs.

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