Identification of DELLA gene family in head cabbage and analysis of mRNA transport in the heterograft.

DELLA gene family is involved in the regulation of signal transduction of plant hormones. mRNAs of GA insensitive (GAI), the member of DELLA gene family, are also signaling molecules of long-distance transport in plants. Genome-wide identification and mRNA transport analysis of the members of DELLA gene family in head cabbage (Brassica oleracea var. capitata) can provide basic data for their application in head cabbage. In this study, five members of DELLA gene family (BoRGA1, BoRGA2, BoRGL1, BoRGL2, and BoRGL3) were identified in head cabbage using genome and transcriptome data. However, head cabbage lacked a GAI gene in its genome. The scion (head cabbage, inbred line G27) and the rootstock Chinese flowering cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee) (sijiucaixin) were cleft-grafted together to produce the heterograft. Inflorescence stem of the rootstock and the corresponding inflorescence stem in Chinese flowering cabbage seedlings (as controls) were purified and analyzed with transcriptome sequencing. The total of 8, 9, 3, 5, and 1 exogenous read(s), derived respectively from BoRGA1, BoRGA2, BoRGL1, BoRGL2, and BoRGL3, were identified in the transcriptomes of the rootstocks. Nevertheless, mRNA transport of DELLA family genes from scion to rootstock did not increase the transcriptional level of the members of DELLA gene family in the rootstocks. Correlation analysis suggested that mRNA transport efficiency of the DELLA family genes was correlated with the sequence and the transcriptional level of the respective DELLA gene in the scion (head cabbage). This study lays the foundation for further investigation on the molecular mechanism of mRNA transport of the members of DELLA gene family in head cabbage.

Cloning and Sequencing of the Genome Segment S9 of Rice Black-streaked Dwarf Virus.

Genome segment S9's of rice black-streaked dwarf virus (RBSDV) of three Chinese isolates were amplified by RT-PCR and sequenced, and were found to be consisted of 1 900 nt (RBSDV-Zj S9 EMBL accession number AJ297430),1 898 nt (RBSDV-Heb S9 EMBL accession number AJ297429) and 1 900 nt (RBSDV-Hub S9 EMBL accession number AJ291706), respectively. Genome segment S9's of three Chinese Isolates shared 98.5%--98.8% sequence homology and all contained two open reading frames (ORF), which encoded two polypeptides with moleclular weights of 40 kD and 24 kD, respectively. Amino acid sequence comparison of the polypeptides encoded by the second ORF of the corresponding genomic segment of five isolates, including three Chinese isolates, Japanese isolate, and Italian MRDV (maize rough dwarf virus), were highly conserved.