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3. Rehydration of the sleeping chironomid, Polypedilum vanderplanki Hinton, 1951 larvae from cryptobiotic state up to full physiological hydration (Diptera: Chironomidae)

Author

Stanisław Knutelski, Hubert Harańczyk, Piotr Nowak, Andrzej Wróbel, Bartosz Leszczyński, Takashi Okuda, Kazimierz Strzałka, and Ewelina Baran

Subjects
Multidisciplinary, Chemical Phenomena, Larva, fungi, Animals, Fluid Therapy, Water, Chironomidae
Abstract

During desiccation the Polypedilum vanderplanki larva loses 97% of its body water, resulting in the shutdown of all metabolic and physiological processes. The larvae are able to resume active life when rehydrated. As dehydration process has already been largely understood, rehydration mechanisms are still poorly recognized. X-ray microtomograms and electron scanning microscopy images recorded during the hydration showed that the volume of the larva's head hardly changes, while the remaining parts of the body increase in volume. In the 1H-NMR spectrum, as recorded for active larvae, component characteristic of solid state matter is absent. The spectrum is superposition of components coming from tightly and loosely bound water fraction, as well as from lipids. The value of the c coefficient (0.66 ± 0.02) of the allometric function describing the hydration models means that the increase in the volume of rehydrated larvae over time is linear. The initial phase of hydration does not depend on the chemical composition of water, but the amount of ions affects the further process and the rate of return of larva’s to active life. Diffusion and ion channels play a major role in the permeability of water through the larva's body integument.

Published
2021

4. Isolation, Identification, and Bioinformatic Analysis of Antibacterial Proteins and Peptides from Immunized Hemolymph of Red Palm Weevil Rhynchophorus ferrugineus

Author

Mona Awad, Piotr Suder, Stanisław Knutelski, Natalia Łukasz, Justyna Śmiałek, Grzegorz Dubin, Michal Bukowski, and Paweł Mak

Subjects
0106 biological sciences, 0301 basic medicine, Gene isoform, lcsh:QR1-502, Peptide, odorant-binding proteins, 01 natural sciences, Biochemistry, Rhynchophorus ferrugineus, lcsh:Microbiology, Transcriptome, 03 medical and health sciences, Hemolymph, attacins, Molecular Biology, chemistry.chemical_classification, biology, Weevil, fungi, bioinformatics, biology.organism_classification, antimicrobial proteins/peptides, Amino acid, cecropins, 010602 entomology, Rhynchophorus, 030104 developmental biology, chemistry, PEST analysis, pheromone-binding proteins, defensins
Abstract

Red palm weevil (Rhynchophorus ferrugineus Olivier, 1791, Coleoptera: Curculionidae) is a destructive pest of palms, rapidly extending its native geographical range and causing large economic losses worldwide. The present work describes isolation, identification, and bioinformatic analysis of antibacterial proteins and peptides from the immunized hemolymph of this beetle. In total, 17 different bactericidal or bacteriostatic compounds were isolated via a series of high-pressure liquid chromatography steps, and their partial amino acid sequences were determined by N-terminal sequencing or by mass spectrometry. The bioinformatic analysis of the results facilitated identification and description of corresponding nucleotide coding sequences for each peptide and protein, based on the recently published R. ferrugineus transcriptome database. The identified compounds are represented by several well-known bactericidal factors: two peptides similar to defensins, one cecropin-A1-like peptide, and one attacin-B-like protein. Interestingly, we have also identified some unexpected compounds comprising five isoforms of pheromone-binding proteins as well as seven isoforms of odorant-binding proteins. The particular role of these factors in insect response to bacterial infection needs further investigation.

Published
2021
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5. Resources of information on biodiversity of Eukaryota in the natural history collections of the Jagiellon University

Author

Tomasz W. Pyrcz, Marcin Nobis, Stanisław Knutelski, and Wojciech Fialkowski

Subjects
Jagiellonian University, Scope (project management), Uniwersytet Jagielloński, zasoby informacji, natural history collection, Environmental science, Library science, Eukaryota, różnorodność biotyczna, kolekcje przyrodnicze, Digitization, biodiversity, information resources
Abstract

In this article, the history of the formation of scientific collections of nature specimens of the Jagiellonian University, currently stored at the Faculty of Biology (Institute of Botany, Institute of Environmental Sciences, Institute of Zoology and Biomedical Research) and the Nature Education Center is presented, as well as the current state of their knowledge, and the contributions of naturalists who have the greatest share in their creation and magnifying. The oldest collections come from the turn of the 15th and 16th centuries. Scientific collections of the Jagiellonian University have been the basis for research and development of science and education, not only in Poland. Due to the wide systematic and biogeographic scope of the gathered collections, many of them require scientific elaboration, ordering, inventorying, digitization and conservation. It is a continuous process, also generated by the constantly changing state of knowledge and new discoveries. Currently, the botanical and entomological collections of the Jagiellonian University are being digitized as part of the Integration and mobilization of data on the biodiversity of Eukaryota in the resources of Polish scientific institutions (IMBIO) project.

Published
2021

6. Isolation, Identification, and Bioinformatic Analysis of Antibacterial Proteins and Peptides from Immunized Hemolymph of Red Palm Weevil

Author

Stanisław, Knutelski, Mona, Awad, Natalia, Łukasz, Michał, Bukowski, Justyna, Śmiałek, Piotr, Suder, Grzegorz, Dubin, and Paweł, Mak

Subjects
Chromatography, Reverse-Phase, fungi, Computational Biology, odorant-binding proteins, bioinformatics, Rhynchophorus ferrugineus, antimicrobial proteins/peptides, Article, Anti-Bacterial Agents, cecropins, Hemolymph, Animals, Araceae, Insect Proteins, Weevils, Immunization, attacins, Amino Acid Sequence, pheromone-binding proteins, Peptides, Chromatography, High Pressure Liquid, defensins
Abstract

Red palm weevil (Rhynchophorus ferrugineus Olivier, 1791, Coleoptera: Curculionidae) is a destructive pest of palms, rapidly extending its native geographical range and causing large economic losses worldwide. The present work describes isolation, identification, and bioinformatic analysis of antibacterial proteins and peptides from the immunized hemolymph of this beetle. In total, 17 different bactericidal or bacteriostatic compounds were isolated via a series of high-pressure liquid chromatography steps, and their partial amino acid sequences were determined by N-terminal sequencing or by mass spectrometry. The bioinformatic analysis of the results facilitated identification and description of corresponding nucleotide coding sequences for each peptide and protein, based on the recently published R. ferrugineus transcriptome database. The identified compounds are represented by several well-known bactericidal factors: two peptides similar to defensins, one cecropin-A1-like peptide, and one attacin-B-like protein. Interestingly, we have also identified some unexpected compounds comprising five isoforms of pheromone-binding proteins as well as seven isoforms of odorant-binding proteins. The particular role of these factors in insect response to bacterial infection needs further investigation.

Published
2020

8. Subfossil markers of climate change during the Roman Warm Period of the late Holocene

Author

Renata Jach, Helena Hercman, Alfred Uchman, Stanisław Knutelski, and Marek Dohnalik

Subjects
010506 paleontology, climate changes, 010504 meteorology & atmospheric sciences, Stag beetle, Climate Change, Cerambyx cerdo, 01 natural sciences, law.invention, bog oak, Quercus, law, Animals, Radiocarbon dating, wood-boring beetle, Bog, Roman Warm Period, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences, Mites, Subfossil, geography.geographical_feature_category, biology, General Medicine, biology.organism_classification, Archaeology, Coleoptera, Geography, alluvia, Wetlands, great capricorn beetle, Poland, Buprestidae, Biomarkers
Abstract

Abundant bog oak trunks occur in alluvial deposits of the Raba River in the village of Targowisko (southern Poland). Several of them contain galleries of the great capricorn beetle (Cerambyx cerdo L.). A well-preserved subfossil larva and pupa, as well as adults of this species, are concealed in some of the galleries. These galleries co-occur with boring galleries of other insects such as ship-timber beetles (Lymexylidae) and metallic wood borers (Buprestidae). A dry larva of a stag beetle (Lucanidae) and a mite (Acari) have been found in the C. cerdo galleries. Selected samples of the trunks and a sample of the C. cerdo larva were dated, using radiocarbon and dendrochronological methods, to the period from 45 bc to ad 554; one sample was dated to the period from 799 to 700 bc. Accumulation of the channel alluvia containing the bog oak trunks is synchronous with the Roman Warm Period (late antiquity/Early Mediaeval times). The most recent part of this period correlates with massive accumulations of fallen oak trunks noted from various river valleys in the Carpathian region and dated to ad 450-570. The results indicate that C. cerdo was more abundant within the study area during the Roman Warm Period than it is today.

Published
2017

9. Occurrence ofWolbachiain central European weevils: correlations with host systematics, ecology, and biology

Author

Dorota Lachowska, Stanisław Knutelski, and Łukasz Kajtoch

Subjects
Systematics, biology, Ecology, Weevil, phylogeny, biology.organism_classification, wsp, Coleoptera, Curculionidae, endosymbionts, Phylogenetics, 16S rDNA, Insect Science, hcpA, Taxonomy (biology), Wolbachia, parthenogenesis, ftsZ, Ribosomal DNA, Ecology, Evolution, Behavior and Systematics, Horizontal transmission
Abstract

We studied the occurrence of Wolbachia in relation to the systematics, ecology, and biology of 40 weevil species from central Europe. Identification of Wolbachia supergroups and phylogeny was performed on the basis of 16S rDNA, ftsZ, wsp, and hcpA sequences. Sixteen species (40%) were infected by Wolbachia. Six of these possess only supergroup A (15% of all studied species, 37.5% of the infected species), and four harbored only supergroup B (10 and 25%, respectively). Six species were infected by both supergroups A and B or their genomes harbored parts of these two supergroups (15 and 37.5%, respectively). No differences between Wolbachia supergroup frequencies were detected. There was almost no correlation between Wolbachia phylogeny and host systematics and phylogeny at the level of subfamily and tribe, because the representatives of both supergroups were detected in all the studied multi-species tribes. Wolbachia strains were probably inherited from a common ancestor only in the case of the genus Strophosoma, where two of three analyzed species possessed bacteria which are genetically very close in all the studied genes. There was also only limited congruence between phylogenies obtained from the four studied genes. These results suggest horizontal transmission of Wolbachia strains between species and recombination events between different strains. A significant correlation was detected between infected and uninfected species in relation to mobility (flying species were 2× more frequently infected than non-flying species), foraging (polyphagous species were 2.5× less frequently infected than mono- or oligophagous species), and reproductive mode (parthenogenetic weevils were infected nearly 2× as often as bisexuals). No differences were detected between mesophilous and xerothermophilous species, nor between those inhabiting open areas vs. arboreal species. However, these results might have been influenced by common ancestry among the studied weevils. Because weevils include many plant pests of economic importance, it is possible to use these data in developing alternative, biology-based strategies for controlling them.

Published
2010
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10. Evolution of Clonality and Polyploidy in a Weevil System

Author

Stanisław Knutelski, Anssi Saura, Magnus Lundmark, and Per Stenberg

Subjects
Mitochondrial DNA, Insecta, Molecular Sequence Data, Asexual reproduction, weevil, Polyploidy, clones, Polyploid, Reproduction, Asexual, Genetics, Animals, Otiorhynchus scaber, parthenogenesis, Molecular Biology, polyploidy, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Phylogenetic tree, Weevil, fungi, Parthenogenesis, biology.organism_classification, Evolutionary biology, Curculionidae, Female, Ploidy
Abstract

The increased interest in asexual organisms calls for in-depth studies of asexual complexes that actively give rise to new clones. We present an extensive molecular study of the Otiorhynchus scaber (Coleoptera, Curculionidae) weevil system. Three forms have traditionally been recognized: diploid sexuals, triploid, and tetraploid parthenogens. All forms coexist in a small central area, but only the polyploid parthenogens have colonized marginal areas. Analyzing the phylogenetic relationship, based on three partial mitochondrial genes, of 95 individuals from 19 populations, we find that parthenogenesis and polyploidy have originated at least three times from different diploid lineages. We observe two major mitochondrial lineages, with over 2.5% sequence divergence between the most basal groups within them, and find that current distribution and phylogenetic relationships are weakly correlated. Quite unexpectedly, we also discover diploid clones that coexist with, and are morphologically indistinguishable from, the diploid sexual females. Our results support that these diploid clones are derived directly from the diploid sexuals. We also find that it is mainly an increase in ploidy level and not the benefits of asexual reproduction that confers to polyploid parthenogens the advantage over their diploid sexual relatives.

Published
2003
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11. Water Bound in Elytra of the Weevil Liparus glabrirostris (Kuster, 1849) by NMR and Sorption Isotherm (Coleoptera: Curculionidae)

Author

Stanisław Knutelski, M. Florek, H. Harańczyk, and P. Nowak

Subjects
biology, Proton, Scanning electron microscope, Chemistry, Weevil, Curculionidae, Analytical chemistry, General Physics and Astronomy, Humidity, Bound water, Fraction (chemistry), biology.organism_classification, Water binding
Abstract

Scanning electron microscopy micrograms of the elytra of Liparus glabrirostris showed a different dorsal and ventral surface and a multilayered inner structure. Hydration kinetics, sorption isotherm, and proton free induction decays are measured for hydrated elytra of the weevil species Liparus glabrirostris (Coleoptera: Curculionidae) in the atmosphere with controlled humidity. Very tightly bound water fraction with the mass ∆m/m0 = 0.037± 0.004, and very short hydration time, tightly bound water ∆m/m0 = 0.034± 0.009, and hydration time t1 = (3.31± 0.93) h, and finally loosely bound water fraction with t2 = (25.5± 7.8) h were distinguished. The sorption isotherm is sigmoidal in form, with the mass of water saturating primary water binding sites equal of ∆M/m0 = 0.036. The proton free induction decays show the presence of solid signal (well fitted by a Gaussian function) from elytra (T ∗ 2G ≈ 18 μs), the immobilized water fraction (T ∗ 2L1 ≈ 120 μs) and mobile water pool (T ∗ 2L2 ≈ 300 μs). The hydration dependence of the water bound in elytra of L. glabrirostris, L/S is linear showing the absence of water-soluble solid fraction and negligible content of water pool “sealed” in pores of the structure.

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