Fate by RNA methylation: m6A steers stem cell pluripotency

The N⁶-methyladenosine (m⁶A) modification of mRNA has a crucial function in regulating pluripotency in murine stem cells: it facilitates resolution of naïve pluripotency towards differentiation.     

Can minimum convex polygon home ranges be used to draw biologically meaningful conclusions?

Many conclusions about mammalian ranging behaviour have been drawn based on minimum convex polygon (MCP) estimates of home range size, although several studies have revealed its unpredictable nature compared to that of the kernel density estimator. We investigated to what extent the choice of home range estimator affected the biological interpretation in comparative studies. We found no discrepancy when the question asked covered a wide range of taxa, as real and very large differences in range size were likely to have masked smaller differences due to the choice of home range estimator. However, when the question asked concerned within-species characteristics, the choice of home range estimator explained as much of the variation in range size as did the ecological variable in question. The implications for macro-ecological and intraspecific studies are discussed.     

Genetic mapping of DArT markers in the Festuca�CLolium complex and their use in freezing tolerance association analysis

Species belonging to the Festuca-Lolium complex are important forage and turf species and as such, have been studied intensively. However, their out-crossing nature and limited availability of molecular markers make genetic studies difficult. Here, we report on saturation of F. pratensis and L. multiflorum genetic maps using Diversity Array Technology (DArT) markers and the DArTFest array.The 530 and 149 DArT markers were placed on genetic maps of L. multiflorum and F. pratensis, respectively, with overlap of 20 markers, which mapped in both species. The markers were sequenced and comparative sequence analysis was performed between L. multiflorum, rice and Brachypodium. The utility of the DArTFest array was then tested on a Festulolium population FuRs0357 in an integrated analysis using the DArT marker map positions to study associations between markers and freezing tolerance. Ninety six markers were significantly associated with freezing tolerance and five of these markers were genetically mapped to chromosomes 2, 4 and 7. Three genomic loci associated with freezing tolerance in the FuRs0357 population co-localized with chromosome segments and QTLs previously identified to be associated with freezing tolerance. The present work clearly confirms the potential of the DArTFest array in genetic studies of the Festuca-Lolium complex. The annotated DArTFest array resources could accelerate further studies and improvement of desired traits in Festuca-Lolium species.     

Interspersed DNA repeats bcr1-bcr18 of Bacillus cereus group bacteria form three distinct groups with different evolutionary and functional patterns

Many short (<400 bp) interspersed sequence repeats exist in bacteria, yet little is known about their origins, mode of generation, or possible function. Here, we present a comprehensive analysis of 18 different previously identified repeated DNA elements, bcr1-bcr18 (?kstad OA, Hegna I, Lindback T, Rishovd AL, Kolst? AB. 1999. Genome organization is not conserved between Bacillus cereus and Bacillus subtilis. Microbiology. 145:621-631.; Tourasse NJ, Helgason E, ?kstad OA, Hegna IK, Kolst? AB. 2006. The Bacillus cereus group: novel aspects of population structure and genome dynamics. J Appl Microbiol. 101:579-593.), in 36 sequenced genomes from the Bacillus cereus group of bacteria. This group consists of genetically closely related species with variable pathogenic specificity toward different hosts and includes among others B. anthracis, B. cereus, and B. thuringiensis. The B. cereus group repeat elements could be classified into three categories with different properties: Group A elements (bcr1-bcr3) exhibited highly variable copy numbers ranging from 4 to 116 copies per strain, showed a nonconserved chromosomal distribution pattern between strains, and displayed several features characteristic of mobile elements. Group B repeats (bcr4-bcr6) were present in 0-10 copies per strain and were associated with strain-specific genes and disruptions of genome synteny, implying a possible contribution to genome rearrangements and/or horizontal gene transfer events. bcr5, in particular, was associated with large gene clusters showing resemblance to integrons. In agreement with their potentially mobile nature or involvement in horizontal transfers, the sequences of the repeats from Groups A and B (bcr1-bcr6) followed a phylogeny different from that of the host strains. Conversely, repeats from Group C (bcr7-bcr18) had a conserved chromosomal location and orthologous gene neighbors in the investigated B. cereus group genomes, and their phylogeny matched that of the host chromosome. Several of the group C repeats exhibited a conserved secondary structure or had parts of the structure conserved, possibly indicating functional RNAs. Accordingly, five of the repeats in group C overlapped regions encoding previously characterized riboswitches. Similarly, other group C repeats could represent novel riboswitches, encode small RNAs, and/or constitute other types of regulatory elements with specific biological functions. The current analysis suggests that the multitude of repeat elements identified in the B. cereus group promote genome dynamics and plasticity and could contribute to the flexible and adaptive life style of these bacteria.