Grain weight is a major component of rice grain yield and is controlled by quantitative trait loci. Previously, a rice grain weight quantitative trait locus (qGW6) was detected near marker RM587 on chromosome 6 in a backcross population (BC2F2) derived from a cross between Oryza rufipogon IRGC105491 and O. sativa cv. MR219. Using a BC2F5 population, qGW6 was validated and mapped to a region of 4.8 cM (1.2 Mb) in the interval between RM508 and RM588. Fine mapping using a series of BC4F3 near isogenic lines further narrowed the interval containing qGW6 to 88 kb between markers RM19268 and RM19271.1. According to the Duncan multiple range test, 8 BC4F4 near isogenic lines had significantly higher 100-grain weight (4.8 to 7.5% over MR219) than their recurrent parent, MR219 (P < 0.05). According to the rice genome automated annotation database, there are 20 predicted genes in the 88-kb target region, and 9 of them have known functions. Among the genes with known functions in the target region, in silico gene expression analysis showed that 9 were differentially expressed during the seed development stage(s) from gene expression series GSE6893; however, only 3 of them have known functions. These candidates provide targets for further characterization of qGW6, which will assist in understanding the genetic control of grain weight in rice.
A cryptic plasmid, pMWHK1 recovered from an Antarctic bacterium Pedobacter cryoconitis BG5 was sequenced and characterised. The plasmid is a circular 6206bp molecule with eight putative open reading frames designated as orf1, orf2, orf3, orf4, orf5, orf6, orf7 and orf8. All the putative open reading frames of pMWHK1 are found to be actively transcribed. Proteins encoded by orf2 and orf4 are predicted to be responsible for the mobilization and replication of the plasmid respectively. orf4 shares 55% and 61% identities with the theta-type Rep proteins from two strains of Riemerella anatipestifer. This suggests that pMWHK1 could be a member of the theta-type replicating plasmid. The origin of replication is located within the AT-rich region upstream of orf4. orf5 and orf6 encode bacterial toxin-antitoxin proteins predicted to maintain plasmid stability. orf3 encodes an entry exclusion protein that is hypothetically involved in reducing the frequency of DNA transfer through conjugation. orf1, orf7 and orf8 encode proteins with unknown functions. Plasmid, pMWHK1 is stably maintained in P. cryoconitis BG5 at 20°C.