Identification of QTLs responsible for culturability, and fine-mapping of QTL qCBT9 related to callus browning derived from Dongxiang common wild rice (Oryza rufipogon Griff.).

Compared to japonica, the lower genetic transformation efficiency of indica is a technical bottleneck for rice molecular breeding. Specifically, callus browning frequently occurs during the culture of the elite indica variety 93-11, leading to poor culturability and lower genetic transformation efficiency. Here, 67 QTLs related to culturability were detected using 97 introgression lines (designated as 9DILs) derived from Dongxiang common wild rice (DXCWR, Oryza rufipogon Griff.) with 93-11 genetic background, explaining 4% ~12% of the phenotypic variations. The QTL qCBT9 on chromosome 9 was a primary QTL for reducing callus browning derived from DXCWR. Five 9DILs with light callus browning and high differentiation were screened. We evaluated the callus browning index (CBI) of 100 F2 population crossed of 93-11 and 9DIL71 and the recombinant plants screened from 3270 individuals. The qCBT9 was delimited to a ~148kb region between the markers X16 and X23. RNA-seq analysis of DEGs between 9DIL71 and 93-11 showed three upregulated DEGs (Os09g0526500, Os09g0527900, Os09g0528200,) and three downregulated DEGs (Os09g0526700, Os09g0526800, Os09g0527700) were located in the candidate region of qCBT9. Furthermore, callus browning may be involved in cell senescence and death caused by oxidative stress. The differentiation of indica and japonica in this region suggested that qCBT9 was possibly a vital QTL contributed to better culturability of japonica. Our results laid a foundation for further cloning of the gene for reduced callus browning in O. rufipogon, and also provided a new genetic resource and material basis for improving the culturability and genetic transformation efficiency of cultivated rice. Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-024-01470-z.

Genetic and Transcriptome Analyses of Callus Browning in Chaling Common Wild Rice (Oryza rufipogon Griff.).

Callus browning during tissue culture of indica rice is genotype dependent, thus limiting the application of genetic transformation for editing-assisted breeding and elucidation of gene function. Here, using 124 introgression lines (HCLs) derived from a cross between the indica rice 9311 and Chaling common wild rice and 2059 SNPs for single-point and interval analysis, we identified two major QTLs, qCBT7 on chromosome 7 and qCBT10 on chromosome 10, related to callus browning, explaining 8-13% of callus browning. Moreover, we performed RNA-seq of two introgression lines with low callus browning, HCL183 and HCL232, with Oryza. rufipogon introgression fragments on chromosomes 10 and 7, respectively. Three candidate genes (Os07g0620700, Os10g0361000, and Os10g0456800) with upregulation were identified by combining interval mapping and weighted gene coexpression network analysis using the DEGs. The qRT-PCR results of the three candidate genes were consistent with those of RNA-seq. The differentiation of indica and japonica subspecies Oryza. sativa and Oryza. rufipogon suggests that these candidate genes are possibly unique in Oryza. rufipogon. GO analyses of hub genes revealed that callus browning may be mainly associated with ethylene and hormone signaling pathways. The results lay a foundation for future cloning of qCBT7 or qCBT10 and will improve genetic transformation efficiency in rice.