Pleistocene fragmentation of the Amazonian rainforest has been hypothesized to be a major cause of Neotropical speciation and diversity. However, the role and even the reality of Pleistocene forest refugia have attracted much scepticism. In Amazonia, previous phylogeographical studies have focused mostly on organisms found in the forests themselves, and generally found speciation events to have predated the Pleistocene. However, molecular studies of open-formation taxa found both north and south of the Amazonian forests, probably because of vicariance resulting from expansion of the rainforests, may provide novel insights into the age of continuous forest cover across the Amazon basin. Here, we analyse three mitochondrial genes to infer the phylogeography of one such trans-Amazonian vicariant, the Neotropical rattlesnake (Crotalus durissus), which occupies primarily seasonal formations from Mexico to Argentina, but avoids the rainforests of Central and tropical South America. The phylogeographical pattern is consistent with gradual dispersal along the Central American Isthmus, followed by more rapid dispersal into and across South America after the uplift of the Isthmus of Panama. Low sequence divergence between populations from north and south of the Amazon rainforest is consistent with mid-Pleistocene divergence, approximately 1.1 million years ago (Ma). This suggests that the Amazonian rainforests must have become fragmented or at least shrunk considerably during that period, lending support to the Pleistocene refugia theory as an important cause of distribution patterns, if not necessarily speciation, in Amazonian forest organisms. These results highlight the potential of nonforest species to contribute to an understanding of the history of the Amazonian rainforests themselves.
Summary. Real‐time quantitative reverse transcription‐polymerase chain reaction (Q‐RT‐PCR) is increasingly used to monitor responses in chronic myeloid leukaemia (CML). The peripheral blood BCR‐ABL/ABL ratio, as assessed by Q‐RT‐PCR, has been shown to correlate with the contemporary cytogenetic response in patients receiving imatinib (Glivec, Gleevec). We have used Q‐RT‐PCR to monitor the early molecular response to 4 weeks and 3 months of imatinib therapy, in 47 patients with established CML. After 4 weeks of imatinib therapy, patients whose BCR‐ABL/ABL ratio had fallen to less than 50% that of baseline had a significantly higher probability of achieving a major cytogenetic response after 6 months of therapy, when compared with those whose ratio did not fall by this amount (P < 0·001). Similarly, patients whose ratio at 3 months was less than 10% of that at baseline had a significantly higher probability of achieving a major cytogenetic remission at 6 months (P < 0·001). Patients who achieved these falls in their BCR‐ABL/ABL ratio at either 4 weeks or 3 months had a superior progression‐free survival at a median follow‐up of 16·5 months (P = 0·01 and 0·003 respectively). These effects were independent of patient age and disease stage. The occurrence of peripheral blood cytopenias sufficiently severe to interrupt therapy was unrelated to progression‐free survival. In conclusion, the data suggest that the early trend in the BCR‐ABL/ABL ratio may be clinically useful for the early identification of patients destined to fare poorly on imatinib.
Aim To investigate the phylogeography and execute a historical-demographic analysis of the Neotropical rattlesnake, Crotalus durissus, thereby testing the hypothesis of a Pleistocene central Amazon corridor of dry forest or savanna that partitioned the Amazonian rain forest into western and eastern portions.Location South America.Methods Using sequences of three mitochondrial genes, we estimated the phylogeography, gene and nucleotide diversity across the South American range of C. durissus. Tree topology tests were used to test alternative biogeographical hypotheses, and tests of population genetic structure and statistical parsimony networks and nested clade phylogeographic analysis (NCPA) were used to infer connectivity and historical population processes on both sides of the Amazon basin.Results Tree topology tests rejected the hypothesis of a coastal dispersal in favour of a central corridor scenario. Gene diversity was similar on both sides of the Amazon basin. Nucleotide diversity indicated that the populations from north of the Amazon basin represented ancestral populations. Analysis of molecular variance (amova) showed that intra-population molecular variation was greater than between regions. Historical-demographic statistics showed significant population expansion south of the Amazon, and little differentiation in the north, indicating moderate past gene flow between north and south of the Amazon. The parsimony network connected clades from the Roraima and Guyana populations with Mato Grosso, suggesting an Amazonian central corridor, and NCPA supported allopatric fragmentation between north and south of the Amazon. Main conclusionsThe distribution of C. durissus on both sides of the Amazon basin is evidence of changes in the distribution of rain forest vegetation during the Pleistocene. Our results suggest a formerly continuous distribution of this rattlesnake along a central Amazonian corridor during the middle Pleistocene. Allopatric fragmentation inferred from NCPA is consistent with vicariance resulting from a subsequent closure of this habitat corridor. This study emphasizes the potential of trans-Amazonian open formation species to inform the debate on the past distribution of rain forests in the Amazon Basin.
Summary. Imatinib mesylate (trade name Glivec Ò or Gleevec) is emerging as an important therapy in the management of chronic myeloid leukaemia (CML). It is clinically useful to monitor the cytogenetic response to imatinib, although frequent marrow examinations are inconvenient. We have used serial real-time reverse transcription-polymerase chain reaction (RT-PCR) to monitor the ratio of peripheral blood BCR-ABL to normal ABL transcripts in 43 patients receiving imatinib, and compared the results to concurrent conventional bone marrow (BM) cytogenetics. After 6 months of treatment, 13 cases were complete cytogenetic responders, defined as all BM metaphases negative for the Philadelphia (Ph) chromosome. In these patients, the BCR-ABL/ABL ratio was less than 0AE08%. Six cases achieved a partial cytogenetic response (1-35% Ph-positive BM metaphases) and their BCR-ABL/ABL ratio was between 0AE08 and 10%. In total, 24 cases were cytogenetic non-responders, and their BCR-ABL/ABL ratio exceeded 11%. The data suggested that the 6-month BCR-ABL/ABL ratio may reliably predict the contemporary marrow cytogenetic response. It was concluded that serial real-time RT-PCR may offer a convenient surrogate assessment of the marrow cytogenetic response to imatinib therapy in CML.
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