We have detected hsc7O gene expression (heat shock protein hsp7O cognate) during vegetative growth and reproductive development in tomato (Lycopersicon esculentum). Using RNA from a tomato hsc7O cDNA as a probe in in situ hybridizations, we have determined expression patterns of hsc7O in nonstressed tomato roots, stems, leaves, flowers, and developing fruits. We have localized high levels of hsc7O transcript to the vascular system of the ovary, dividing cells of the lateral root tips, and the inner integument of developing seeds. We also see expression in the transmitting tissue, in immature anthers, and in embryos. We cannot detect expression in mature pollen, xylem, or ovules. These data indicate that the expression of at least some tomato hsp7O family members is developmentally regulated.The heat shock response was first described in Drosphila in 1962 (1). Further analysis has shown that all organisms produce heat shock proteins (hsps) in response to heat, heavy metals, and a variety of other stresses (2); hsps range in size from 16 to 110 kDa, with the exact protein profile varying between organisms (3).The sequence of the 70-kDa hsp (hsp70) is evolutionarily highly conserved, and in some organisms this is the most abundantly expressed of the hsps (2). In all organisms investigated except chicken (4), hsp70s are encoded by multigene families. The multigene family members are differentially regulated (5), and members that are expressed in the absence of heat stress are referred to as cognate hsp70s (hsc70s), or "cognates" (6). Some hsc70s have been associated with specific functions such as clathrin uncoating (7, 8), glycosylation-related reactions (9), and transfemrn activities (10); other hsc70s seem to be developmentally regulated (11). hsc70s that are expressed during development have been detected during yeast sporulation (12), Drosophila oogenesis (13), in preimplantation mouse embryos (14), and during mouse, rat, and human spermatogenesis (15).Recent evidence indicates that some of the yeast hsc70s are involved in the transport of proteins across membranes (16,17). There is speculation (16) that the hsc70 unfolding activities used during transport may also be used in some of the other cognate activities. The localization studies presented in this paper indicate that there is nonstress, tissuespecific regulation of hsp70 family members in tomato. This work is the foundation for further analyses aimed at determining hsc70 functions during development and stress. Additionally, the promoters of such family members may be useful in chimeric gene constructions aimed at localizing foreign gene products in some of these tissues. call hsc-1, and the well-characterized petunia hsp70 (20) verified that hsc-1 is an hsp70 family member.
MATERIALS AND METHODSTissue Preparation. The VF36 tomato plants used in all of these experiments were maintained in growth chambers at 18'C on a 9-hr day/15-hr night light/dark cycle. Buds were collected and measured from the zone of abcission to bud tip, and the correlati...
