Publications

3883

Abstract An attempt was made to characterize the Phytoplasma in suspected cowpea (Vigna unguiculata L.) samples showing symptoms consisting of bud proliferation and stunting at Experimental Farm, ICAR-NBPGR, New Delhi during Kharif 2020. Associated phytoplasma was characterized based on sequence analysis of target 16S rDNA fragments of 1247 bp amplified from symptomatic samples of cowpea by nested-polymerase chain reaction assay using universal phytoplasma specific primers pairs (P1/P7 and R16F2n/ R16R2). The 16S rDNA sequences understudy shared 98.6% similarity with that of the Candidatus Phytoplasma aurantifolia (GenBank accession: U15442). In phylogenetic analysis, the target 16S rDNA fragment from two samples (Cow-1 and Cow-2) clustered with strains of the 16SrII group of Ca. Phytoplasma aurantifolia. The virtual RFLP pattern showed the highest similarity with the reference pattern of the 16SrII-D subgroup (GenBank accession: Y10097) with a coefficient of 0.97. Since obtained coefficient value is equal to the threshold (0.97) for designating a different strain. Therefore, this phytoplasma infecting cowpea is proposed to be a new strain of Ca. P. aurantifolia as 16SrII-Ysubgroup.

Amycolatopsis coloradensis ATCC 53629 is the producer of the glycopeptide antibiotic avoparcin. While setting up the production of the avoparcin complex, in view of its use as analytical standard, we uncovered the production of a to-date not described ristosamynil-avoparcin. Ristosamynil-avoparcin is produced together with α- and β-avoparcin (overall indicated as the avoparcin complex). Selection of one high producer morphological variant within the A. coloradensis population, together with the use of a new fermentation medium, allowed to increase productivity of the avoparcin complex up to 9 g/L in flask fermentations. The selected high producer displayed a non-spore forming phenotype. All the selected phenotypes, as well as the original unselected population, displayed invariably the ability to produce a complex rich in ristosamynil-avoparcin. This suggested that the original strain deposited was not conforming to the description or that long term storage of the lyovials has selected mutants from the original population.

Beetles are hosts to a remarkable diversity of bacterial symbionts. In this article, we review the role of these partnerships in promoting beetle fitness following a surge of recent studies characterizing symbiont localization and function across the Coleoptera. Symbiont contributions range from the supplementation of essential nutrients and digestive or detoxifying enzymes to the production of bioactive compounds providing defense against natural enemies. Insights on this functional diversity highlight how symbiosis can expand the host's ecological niche, but also constrain its evolutionary potential by promoting specialization. As bacterial localization can differ within and between beetle clades, we discuss how it corresponds to the microbe's beneficial role and outline the molecular and behavioral mechanisms underlying symbiont translocation and transmission by its holometabolous host. In reviewing this literature, we emphasize how the study of symbiosis can inform our understanding of the phenotypic innovations behind the evolutionary success of beetles.

ABSTRACT. A 59-year-old female living in Rayong Province, eastern Thailand, presented with painless, right upper eyelid nodule for 3 months. Upon removal of the eyelid mass, a well-circumscribed, firm globular mass with diameter about 1 cm was found. Histopathological examination revealed an immature female dirofilarial worm reminiscent of Dirofilaria repens, characterized by prominent sharp longitudinal ridges at external surface of the cuticle. Analysis of the mitochondrial 12S rRNA sequence showed that the worm belongs to Candidatus Dirofilaria hongkongensis. It is likely that some infections previously reported as D. repens based on histological examination may have actually been due to Candidatus D. hongkongensis.