@article{91481, keywords = {Animals, Base Sequence, DNA, Species Specificity, Saccharomyces cerevisiae, Nucleic Acid Hybridization, Plasmids, Genetic Vectors, Base Composition, DNA, Ribosomal, DNA, Fungal, Eukaryota}, author = {Pluta and Dani and Spear and Zakian}, title = {Elaboration of telomeres in yeast: recognition and modification of termini from Oxytricha macronuclear DNA.}, abstract = { The termini of macronuclear DNA molecules from the protozoan Oxytricha fallax share a common sequence and structure, both of which differ markedly from those deduced for yeast telomeres. Despite these differences, terminal restriction fragments from O. fallax macronuclear DNA can support telomere formation in yeasts. Two linear plasmids (LYX-1 and LYX-2) constructed by ligating BamHI-digested total Oxytricha macronuclear DNA to a yeast vector were analyzed. One end of LYX-1 and both ends of LYX-2 are derived from the Oxytricha DNA that encodes rRNA (rDNA) whereas the other end of LYX-1 is from an Oxytricha fragment other than rDNA. After propagation in yeast, both ends of LYX-1 and LYX-2 retain the C4A4 repeat characteristic of the O. fallax terminal sequence. In addition, both ends of both plasmids acquire 300-1000 base pairs of DNA containing the sequence (C-A)n, a sequence found near the termini of yeast chromosomes. Thus, at least two different Oxytricha termini display distinctive properties in yeast cells in that linear plasmids containing them are not degraded nor are they integrated into chromosomal DNA. These Oxytricha termini may act directly as telomeres in yeast; alternatively, the Oxytricha DNA may serve as a signal that results in the elaboration of a yeast telomere on the ciliate DNA. }, year = {1984}, journal = {Proc Natl Acad Sci U S A}, volume = {81}, pages = {1475-9}, month = {03/1984}, issn = {0027-8424}, language = {eng}, }