TY - JOUR
T1 - Three members of the S multigene family are linked to the S locus of Brassica
AU - Suzuki, G.
AU - Watanabe, M.
AU - Kai, N.
AU - Matsuda, N.
AU - Toriyama, K.
AU - Takayama, S.
AU - Isogai, A.
AU - Hinata, K.
N1 - Funding Information:
Acknowledgements This work was supported in part by Grants-in-Aid for Special Research on Priority Areas (nos. 07281102 and 07281103; Genetic Dissection of Sexual Differentiation and Pollination Process in Higher Plants) from the Ministry of Education, Science, Culture and Sports, Japan. The authors thank Dr. Marcy K. Uyenoyama for her critical reading of the manuscript and for correcting the English. The authors also thank Dr. Yukihiro Ito and Hiroyasu Kitashiba for providing us an information and a sample of the tubulin gene. G. S. is a recipient of Research Fellowships of the Japan Society for the Promotion of Science for Young Scientists.
PY - 1997
Y1 - 1997
N2 - Two self-incompatibility genes in Brassica, SLG and SRK (SLG encodes a glycoprotein; SRK encodes a receptor-like kinase), are included in the S multigene family. Products of members of the S multigene family have an SLG-like domain (S domain) in common, which may function as a receptor. In this study, three clustered members of the S multigene family, BcRK1, BcRL1 and BcSL1, were characterized. BcRK1 is a putative functional receptor kinase gene expressed in leaves, flower buds and stigmas, while BcRL1 and BcSL1 are considered to be pseudogenes because deletions causing frameshifts were identified in these sequences. Sequence and expression pattern of BcRK1 were most similar to those of the Arabidopsis receptor-like kinase gene ARK1, indicating that BcRK1 might have a function similar to that of ARK1, in processes such as cell expansion or plant growth. Interestingly, the region containing BcRK1, BcRL1 and BcSL1 is genetically linked to the S locus and the physical distance between SLG, SRK and the three S-related genes was estimated to be less than 610 kb. Thus the genes associated with self-incompatibility exist within a cluster of S-like genes in the genome of Brassica.
AB - Two self-incompatibility genes in Brassica, SLG and SRK (SLG encodes a glycoprotein; SRK encodes a receptor-like kinase), are included in the S multigene family. Products of members of the S multigene family have an SLG-like domain (S domain) in common, which may function as a receptor. In this study, three clustered members of the S multigene family, BcRK1, BcRL1 and BcSL1, were characterized. BcRK1 is a putative functional receptor kinase gene expressed in leaves, flower buds and stigmas, while BcRL1 and BcSL1 are considered to be pseudogenes because deletions causing frameshifts were identified in these sequences. Sequence and expression pattern of BcRK1 were most similar to those of the Arabidopsis receptor-like kinase gene ARK1, indicating that BcRK1 might have a function similar to that of ARK1, in processes such as cell expansion or plant growth. Interestingly, the region containing BcRK1, BcRL1 and BcSL1 is genetically linked to the S locus and the physical distance between SLG, SRK and the three S-related genes was estimated to be less than 610 kb. Thus the genes associated with self-incompatibility exist within a cluster of S-like genes in the genome of Brassica.
KW - Brassica campestris
KW - Gene cluster
KW - Receptor-like kinase
KW - S multigene family
KW - Self-incompatibility
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U2 - 10.1007/s004380050568
DO - 10.1007/s004380050568
M3 - Article
C2 - 9393450
AN - SCOPUS:0030668255
SN - 0026-8925
VL - 256
SP - 257
EP - 264
JO - Molecular and General Genetics
JF - Molecular and General Genetics
IS - 3
ER -