The ability to produce single-stranded DNA on a preparative scale from low amounts of starting templates is necessary for most research involving deoxyribozymes, but is particularly important for ...performing in vitro selections. While the production of single-stranded RNA is straightforward by means of in vitro transcription, the enzymatic production of single-stranded DNA (ssDNA) on a preparative scale is often difficult. Nevertheless, several methods for the production of ssDNA have been published over the years. Here, we present two PCR methods that we find to be particularly effective, fast, and affordable, which we have adapted for our own needs.
Newly isolated strains of the ciliate Paramecium calkinsi and their cytoplasmic bacterial endosymbionts were characterized by a multidisciplinary approach, including live observation, ultrastructural ...investigation, and molecular analysis. Despite morphological resemblance, the characterized P. calkinsi strains showed a significant molecular divergence compared to conspecifics, possibly hinting for a cryptic speciation. The endosymbionts were clearly found to be affiliated to the species “Candidatus Trichorickettsia mobilis” (Rickettsiales, Rickettsiaceae), currently encompassing only bacteria retrieved in an obligate intracellular association with other ciliates. However, a relatively high degree of intraspecific divergence was observed as well, thus it was possible to split “Candidatus Trichorickettsia” into three subspecies, one of which represented so far only by the newly characterized endosymbionts of P. calkinsi. Other features distinguished the members of each different subspecies. In particular, the endosymbionts of P. calkinsi resided in the cytoplasm and possessed numerous peritrichous flagella, although no motility was evidenced, whereas their conspecifics in other hosts were either cytoplasmic and devoid of flagella, or macronuclear, displaying flagellar-driven motility. Moreover, contrarily to previously analyzed “Candidatus Trichorickettsia” hosts, infected P. calkinsi cells frequently became amicronucleate and demonstrated abnormal cell division, eventually leading to decline of the laboratory culture.