Abstract: | Terminal regions of linear plasmid‐like DNA molecules from chloroplasts of the green alga Ernodesmis verticillata (Kützing) Børgesen were cloned and structurally characterized. Phosphorylation experiments with polynucleotide kinase indicated the presence of a 5′‐phosphate, but the data did not reveal any protective protein(s) at the 5′ end. To characterize the 3′ end of these molecules, homopolymer‐ (poly(G)‐) tailed molecules were annealed to and cloned into a linearized vector that was poly(C) tailed with terminal deoxynucleotidyl transferase. Sequencing analyses verified the heterogeneous nature of the molecules. Two distinct clones displayed extensive terminal inverted repeats (TIRs) at the 3′ end (94 and 433 nt). Shorter TIRs (3–6 nt) were identified at the 3′ end of most clones, which may serve to protect the ends. In fact, exonuclease III and λ exonuclease digested the plasmid‐like DNAs only after heat denaturation, signifying that conformational changes due to such treatment potentially make the 3′ and 5′ ends (respectively) susceptible to degradation. Multiple tandem and direct repeats were evident near the 3′ ends. A consensus sequence of 18+ nt was discovered in nearly every clone opposite the poly(G) tail, suggesting that this sequence has structural and/or functional significance. Pair‐wise sequence comparisons and the presence of repeats indicated that these novel molecules may be highly recombinant. |