Functional analysis of the protein-interacting domains of chloroplast SRP43.

The chloroplast signal recognition particle (cpSRP) consists of an evolutionarily conserved 54-kDa subunit (cpSRP54) and a dimer of a unique 43-kDa subunit (cpSRP43). cpSRP binds light-harvesting chlorophyll proteins (LHCPs) to form a cpSRP/LHCP transit complex, which targets LHCP to the thylakoid membrane. Previous studies showed that transit complex formation is mediated through the binding of the L18 domain of LHCP to cpSRP43. cpSRP43 is characterized by a four-ankyrin repeat domain at the N terminus and two chromodomains at the C terminus. In the present study we used the yeast two-hybrid system and in vitro binding assays to analyze the function of different domains of cpSRP43 in protein complex formation. We report here that the first ankyrin repeat binds to the 18-amino acid domain on LHCP that binds to cpSRP43, whereas the third and fourth ankyrin repeats are involved in the dimerization of cpSRP43. We show further that the interaction of cpSRP43 with cpSRP54 is mediated via binding of the methionine-rich domain of cpSRP54 to the C-terminally located chromodomains of cpSRP43. Both chromodomains contain essential elements for binding cpSRP54, indicating that the closely spaced chromodomains together create a single binding site for cpSRP54. In addition, our data demonstrate that the interaction of cpSRP54 with the chromodomains of cpSRP43 is enhanced indirectly by the dimerization motif of cpSRP43.

Gene identification with sequenced T-DNA tags generated by transformation of Arabidopsis cell suspension.

A protocol for establishment and high-frequency Agrobacterium-mediated transformation of morphogenic Arabidopsis cell suspensions was developed to facilitate saturation mutagenesis and identification of plant genes by sequenced T-DNA tags. Thirty-two self-circularized T-DNA tagged chromosomal loci were isolated from 21 transgenic plants by plasmid rescue and long-range inverse polymerase chain reaction (LR-iPCR). By bidirectional sequencing of the ends of T-DNA-linked plant DNA segments, nine T-DNA inserts were thus localized in genes coding for the Arabidopsis ASK1 kinase, cyclin 3b, J-domain protein, farnesyl diphosphate synthase, ORF02, an unknown EST, and homologues of a copper amine oxidase, a peripheral Golgi protein and a maize pollen-specific transcript. In addition, 16 genes were identified in the vicinity of sequenced T-DNA tags illustrating the efficiency of genome analysis by insertional mutagenesis.