Plant Physiol, April 2000, Vol. 122, pp. 1073-1080
Dg93, a Nodule-Abundant mRNA of Datisca
glomerata with Homology to a Soybean Early Nodulin
Gene1
Patricia A.
Okubara,2
Nancy A.
Fujishige,
Ann M.
Hirsch, and
Alison M.
Berry*
Department of Environmental Horticulture, University of California,
Davis, California 95616 (P.A.O., A.M.B.); and Department of Molecular,
Cell, and Developmental Biology, University of California, Los Angeles,
California 90095-1606 (N.A.F., A.M.H.)
We have
isolated a 590-bp full-length cDNA clone designated
Dg93, an mRNA that is highly expressed in symbiotic root
nodules of the actinorhizal host Datisca glomerata. Dg93
mRNA encodes a deduced polypeptide of 105 amino acids with significant
identity (74%) to the soybean (Glycine max) early
nodulin (ENOD) gene GmENOD93 (Kouchi and Hata, 1993).
Dg93 mRNA is abundant in nodules at 4 weeks post
inoculation, the earliest time assayed, and steady-state mRNA levels
remain elevated 11 weeks after inoculation. Spatial patterns of
Dg93 mRNA expression are complex, with transcript accumulation in the nodule lobe meristem, early infection zone, periderm, and cells of the vascular cylinder, but not in the
surrounding uninfected cortical cells. Dg93 is encoded
by a small gene family in D. glomerata. To our
knowledge, this is the first report of a gene from an actinorhizal host
that is expressed in the nodule meristem and that shares sequence
homology with an early nodulin gene from a legume.
1
This work was supported by California
Agricultural Experiment Station Project no. 6,258 to A.M.B. and by the
National Science Foundation (grant no. 94-0-2271 to A.M.H.).
2
Present address: U.S. Department of
Agriculture-Agricultural Research Service, Western Regional
Research Center, 800 Buchanan Street, Albany, CA 94710.
*
Corresponding author; e-mail amberry{at}ucdavis.edu; fax
916-752-1819.
© 2000 American Society of Plant Physiologists
