Phage-host interactions in <em>Lactobacillus delbrueckii</em>: host recognition and transcription of early phage genes

Räisänen, L. (Liisa)

24 April 2007

Abstract The scope of this study includes aspects of phage evolution and antagonistic/mutualistic coevolution between a phage and its host. As a basic study it may provide tools for developing phage resistant starters and offer regulatory elements and factors for biotechnological applications. The LL-H anti-receptor was characterized by isolation of spontaneous LL-H host range mutants and subsequent sequencing of candidate genes. All LL-H host range mutants carried a single point mutation at the 3' end of a minor tail protein encoding gene g71. The genomic location of g71 is congruent with the other verified anti-receptor genes found in the λ supergroup. The C-terminus of Gp71 determines the adsorption specificity of phage LL-H similarly for the number of phages infecting Gram-positive and Gram-negative bacteria. A Gp71 homolog of phage JCL1032 showed 62% identity to LL-H Gp71 within the last 300 amino acids at the C-terminus. Lactobacillus delbrueckii phage receptors were investigated by the purification of different cell surface structures. Certain Lb. delbrueckii phages from homology groups a and c including LL-H, LL-H host range mutants and JCL1032, were specifically inactivated by the LTAs. In structural analyses LTAs showed differences in the degree of α-glucosyl and ᴅ-alanyl substitution. α-glucose is necessary for LL-H adsorption. A high level of ᴅ-alanine esters in LTA backbones inhibited Lb. delbrueckii phage inactivation in general. Lysogenization of strain ATCC 15808 with the temperate phage JCL1032 revealed a rarely described coexistence of phage adsorption resistance and phage immunity, which could not be explained by lysogenic conversion. In this case the role of spontaneously induced JCL1032 may be significant. The LL-H early gene region was localized between the dysfunctional lysogeny module and the terminase encoding genes. The function of five ORFs could be connected to phage DNA replication and/or homologous recombination. Transcription of LL-H genes could be divided into two, possibly three, phases in which large gene clusters were sequentially transcribed. The intensity of the late transcripts exceeded the intensity of the early transcripts by several times. Two candidate genes for transcription regulators were found. One of the two candidates is the first ORF in the LL-H early gene region.

anti-receptor

host recognition

lactic acid bacteria

phage receptor

phage resistance

phage transcription

Basis of host recognition by the larval endoparasitoids : Cotesia sesamiae Cameron and Cotesia flavipes (Cameron) (Hymenoptera: Braconidae) / Obonyo Amos Owino Meshack

Meshack, Obonyo Amos Owino

January 2009

Host recognition behaviour of two braconid larval parasitoids Cotesia sesamiae and Cotesia flavipes was studied using suitable stemborer hosts [i.e. Busseola fusca for C. sesamiae, and Chilo partellus for C. flavipes] and one non-host [Eldana saccharina]. The wasps displayed similar sequences of behavioural steps when locating their hosts largely depending on their antennae for host recognition and both antennae and tarsi for final host acceptance and oviposition. Tactile and contact chemoreception stimuli from the hosts seem to play a major role in oviposition decision by the parasitoids. In addition, the external morphology and distribution pattern of sensilla present on antennae, tarsi and ovipositor of the parasitoids were examined by scanning electron and optic microscopy after staining with silver nitrate. Three sensillar types were identified on the distal antennomeres: (i) non-porous sensilla trichoidea most probably involved in mechanoreception, (ii) uniporous sensilla chaetica likely to be gustatory and, (iii) multiporous sensilla placodea likely to be olfactory. The tarsi possess a few sensilla chaetica which could be gustatory while the manubrium is likely to be used in detection of vibrations. The distal end of the ovipositor bears numerous multiporous dome-shaped sensilla. Additionally, the ability of the wasps to discriminate between contact cues was studied. When host larvae were washed in distilled water the wasps did not insert their ovipositors. However, ovipositor insertion resumed when washed host or non-host larvae were painted with water extracts of their respective host larvae. The water extracts of the suitable hosts were more attractive to the wasps than those of non-hosts. Similarly, the frass is important in host recognition during short-range examination as those of respective hosts are more intensely antennated than of non-hosts. The parasitoids were able to discriminate the regurgitant of E. saccharina by not antennating the cotton wool ball of this host; while the regurgitant of B. fusca and C. partellus appeared not useful in discriminating between the two species for both parasitoid species. Further analysis suggests the presence of a protein(s) component(s) in the regurgitant possibly responsible for host recognition and oviposition by C. flavipes. / Thesis (Ph.D. (Environmental Science))--North-West University, Potchefstroom Campus, 2009.

Braconidae

Busseola fusca

Chilo partellus

Cotesia flavipes

Cotesia sesamiae

Eldana saccharina

Host recognition

Kairomones

Lepidoptera

Parasitoids

Stemborers

Basis of host recognition by the larval endoparasitoids : Cotesia sesamiae Cameron and Cotesia flavipes (Cameron) (Hymenoptera: Braconidae) / Obonyo Amos Owino Meshack

Meshack, Obonyo Amos Owino

January 2009

Host recognition behaviour of two braconid larval parasitoids Cotesia sesamiae and Cotesia flavipes was studied using suitable stemborer hosts [i.e. Busseola fusca for C. sesamiae, and Chilo partellus for C. flavipes] and one non-host [Eldana saccharina]. The wasps displayed similar sequences of behavioural steps when locating their hosts largely depending on their antennae for host recognition and both antennae and tarsi for final host acceptance and oviposition. Tactile and contact chemoreception stimuli from the hosts seem to play a major role in oviposition decision by the parasitoids. In addition, the external morphology and distribution pattern of sensilla present on antennae, tarsi and ovipositor of the parasitoids were examined by scanning electron and optic microscopy after staining with silver nitrate. Three sensillar types were identified on the distal antennomeres: (i) non-porous sensilla trichoidea most probably involved in mechanoreception, (ii) uniporous sensilla chaetica likely to be gustatory and, (iii) multiporous sensilla placodea likely to be olfactory. The tarsi possess a few sensilla chaetica which could be gustatory while the manubrium is likely to be used in detection of vibrations. The distal end of the ovipositor bears numerous multiporous dome-shaped sensilla. Additionally, the ability of the wasps to discriminate between contact cues was studied. When host larvae were washed in distilled water the wasps did not insert their ovipositors. However, ovipositor insertion resumed when washed host or non-host larvae were painted with water extracts of their respective host larvae. The water extracts of the suitable hosts were more attractive to the wasps than those of non-hosts. Similarly, the frass is important in host recognition during short-range examination as those of respective hosts are more intensely antennated than of non-hosts. The parasitoids were able to discriminate the regurgitant of E. saccharina by not antennating the cotton wool ball of this host; while the regurgitant of B. fusca and C. partellus appeared not useful in discriminating between the two species for both parasitoid species. Further analysis suggests the presence of a protein(s) component(s) in the regurgitant possibly responsible for host recognition and oviposition by C. flavipes. / Thesis (Ph.D. (Environmental Science))--North-West University, Potchefstroom Campus, 2009.

Braconidae

Busseola fusca

Chilo partellus

Cotesia flavipes

Cotesia sesamiae

Eldana saccharina

Host recognition

Kairomones

Lepidoptera

Parasitoids

Stemborers

Host recognition strategies and evolution in phages infecting the marine bacterium Alteromonas sp.

Gonzalez-Serrano, Rafael

22 March 2021

Viruses constitute the vast majority of all biological entities in the biosphere and represent one of the biggest reservoirs of undetected genetic diversity on Earth. Of all the viral particles inhabiting the ocean, phages are the most abundant and can affect the overall microbial composition of marine ecosystems and the dynamics of global biogeochemical cycles. The interaction between prokaryotic cells and their phages is among the oldest and most intertwined host-parasite relationships on the planet. It has been extensively studied by culture, molecular biology, and experimental evolution. However, due to the difficulties of culture with environmental samples, only a few studies have analyzed the mechanisms of phage-host interaction in the marine environment. Here, we have studied the genes involved in viral host recognition and their evolutionary dynamics by focusing on two species of the marine copiotrophic bacterium Alteromonas and several phages infecting them. We described the genomic and morphological characterization of the first Alteromonas phage belonging to the Myoviridae family (Alteromonas myovirus V22) that was isolated in coastal waters of the Mediterranean Sea, and we identified its receptor-binding protein (RBP) used for host recognition by combining fluorescence microscopy and spectrometry. In addition, using size-exclusion chromatography, we showed how this protein required co-expression with a downstream protein to be functional, which later was identified as a new type of intermolecular chaperone crucial for RBP maturation. We also identified a conserved host recognition module in V22 and other unrelated alterophages belonging to different viral families and with completely different morphologies, suggesting horizontal gene transfer between the ancestors of these phages. Furthermore, we described the first coevolution study of a host-parasite system performed with Alteromonas using a metagenomics-like approach. Finally, we analyzed the micro- and macrodiversity of an alterophage population that was able to survive over a long period of time and showed remarkable genomic stability, indicating stable interactions over time between phage-host recognition structures. Overall, this study has contributed to extend the knowledge of known phage-host recognition mechanisms present in the marine ecosystem and has provided a first glimpse of the evolutionary dynamics in phages infecting Alteromonas.

Bacteriophage

Alteromonas

Receptor-binding protein

Host recognition

Tail fiber

Chaperone

Experimental evolution

Point mutation

Allele fixation

Microbiología

Odour signals relevant to beetles in deadwood habitats - odorants, olfaction and behaviour. / Duftstoffsignale bedeutend für Käfer in Totholzhabitaten - Duftstoffe, Wahrnehmung und Verhalten.

Holighaus, Gerrit

27 April 2012

No description available.

570 Biowissenschaften

Biologie

WYP 550

Forest Sciences and Forest Ecology

Xylobios

Ambrosiakäfer

Holzzersetzung

Wirt

Volatile

Wirtserkennung

VOC

Holz

GC-EAD

EAG

Mykophagie

Hefe

LOX

Oxylipine

C8

Cerambycidae

Lymexylidae

Tenebrionidae

Scolytinae

Polyporales

saproxylic

fungus-growing

wood decay

host

non-host

volatiles

host recognition

VOC

wood assessment

GC-EAD

EAG

fungivory

yeast

secondary pheromone component

LOX

oxylipin

eight-carbon

42.99 Biologie: Sonstiges

42.75 Insecta: Entomologie

35.70 Biochemie: Chemische Ökologie