The magneto-transport properties of an individual single crystalline Bi nanowire grown by aspontaneous growth method are reported. A four-terminal device based on an individual 400-nm-diameternanowire was successfully fabricated using a plasma etching technique that removed an oxide layer that hadformed on the surface of the nanowire. Large transverse ordinary magnetoresistance (1401%) and negativelongitudinal ordinary magnetoresistance (−38%) were measured at 2K. It was observed that the period ofShubnikov-de Haas oscillations in transverse geometry was 0.074T−1, 0.16T−1 and 0.77T−1, which is in goodagreement with those of bulk Bi. However, it was found that the period of SdH oscillation in longitudinalgeometry is 0.24T−1, which is larger than the value of 0.16T−1 reported for bulk Bi. The deviation is attributableto the spatial confinement arising from scattering at the nanowire surface boundary.

It is important for radish to have late flowering characteristics especially in the case of spring and winter cultivars. To understand late flowering characteristics of radish at the molecular level the flowering time genes of two radish lines (NH-JS1 and NH-JS2) with different flowering time were compared by re-sequencing their genomes. There were a total of 872,587 SNPs and 194,637 INDELs between the two lines. The SNP density of each chromosome was relatively uniform throughout, but the region with low SNP density was found at the end of R3 and the middle of R9. To compare the flowering time genes of the two lines, we first looked for the flowering time genes in radish using Arabidopsis thaliana flowering time genes. As a result, homologs of radish were found for most flowering time genes, but FRIGIDA was not found. Among 224 radish flowering time gene-homologs found, 97 genes showed more than one sequence difference (SNP or INDEL) between the two lines, and 127 genes had no difference. In particular, no sequence differences were found in FT, CO, and FLC, core flowering time control genes. Rs350520 (FVE), Rs193800 (CURLY LEAF) and Rs255320 (ATX1) with more than 100 sequence variations were expected to have a significant effect on flowering time difference between the two lines. These results will be of great help in understanding the flowering timing difference between the two lines at the molecular level.