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Contributions of Women in Insect Science
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Contributions of Women in Insect Science

A special issue of Insects (ISSN 2075-4450). This special issue belongs to the section "Insect Physiology, Reproduction and Development".

Deadline for manuscript submissions: closed (30 November 2022) | Viewed by 19035

Special Issue Editors

Dr. Christen Mirth

E-Mail Website
Guest Editor
School of Biological Science, Monash University, Melbourne, VIC 3800, Australia
Interests: phenotypic plasticity; developmental physiology; nutrition; thermal biology; allometry; evolution and development; environmental conditions; adaptation; genetic variation
Prof. Dr. Lynn M. Riddiford

E-Mail Website
Guest Editor
Friday Harbor Laboratories and Department of Biology, University of Washington, Friday Harbor, WA 98250, USA
Interests: insect endocrinology; metamorphosis; regulation of reproductive maturation; hormonal regulation of reproductive behavior; pheromone reception

Special Issue Information

Dear Colleagues, 

To emphasize women's contributions to the field of insect science, the journal Insects is launching a Special Issue on “Contributions of Female Scientists to the Advancement of Insect Science”, which will be published in Insects (ISSN 2075-4450, https://www.mdpi.com/journal/insects) in 2022. This Special Issue will include high-quality research papers and review articles in basic areas of insect science. We invite insect scientists from around the world to share either their original research led by female scientist(s) or up-to-date reviews highlighting the leading role of women in the advancement of the field. We are particularly interested in contributions of women in the basic aspects of insect biology.

Dr. Christen Mirth
Prof. Dr. Lynn M. Riddiford
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Insects is an international peer-reviewed open access monthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2600 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • insect development
  • metamorphosis
  • reproductive physiology
  • circadian rhythms
  • immune defenses
  • insect viruses
  • medical vector biology
  • phenotypic plasticity
  • morphological evolution
  • population genetics
  • adaptation
  • functional ecology
  • life history traits

Published Papers (8 papers)

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Research

Jump to: Review

18 pages, 14282 KiB  
Article
Functional Divergence of the Tribolium castaneum engrailed and invected Paralogs
by Summer Blunk, Hector Garcia-Verdugo, Sierra O’Sullivan, James Camp, Michael Haines, Tara Coalter, Terri A. Williams and Lisa M. Nagy
Insects 2023, 14(8), 691; https://doi.org/10.3390/insects14080691 - 04 Aug 2023
Viewed by 1329
Abstract
Engrailed (en) and invected (inv) encode paralogous transcription factors found as a closely linked tandem duplication within holometabolous insects. Drosophila en mutants segment normally, then fail to maintain their segments. Loss of Drosophila inv is viable, while loss of both genes results in asegmental larvae. [...] Read more.
Engrailed (en) and invected (inv) encode paralogous transcription factors found as a closely linked tandem duplication within holometabolous insects. Drosophila en mutants segment normally, then fail to maintain their segments. Loss of Drosophila inv is viable, while loss of both genes results in asegmental larvae. Surprisingly, the knockdown of Oncopeltus inv can result in the loss or fusion of the entire abdomen and en knockdowns in Tribolium show variable degrees of segmental loss. The consequence of losing or knocking down both paralogs on embryogenesis has not been studied beyond Drosophila. To further investigate the relative functions of each paralog and the mechanism behind the segmental loss, Tribolium double and single knockdowns of en and inv were analyzed. The most common cuticular phenotype of the double knockdowns was small, limbless, and open dorsally, with all but a single, segmentally iterated row of bristles. Less severe knockdowns had fused segments and reduced appendages. The Tribolium paralogs appear to act synergistically: the knockdown of either Tribolium gene alone was typically less severe, with all limbs present, whereas the most extreme single knockdowns mimic the most severe double knockdown phenotype. Morphological abnormalities unique to either single gene knockdown were not found. inv expression was not affected in the Tribolium en knockdowns, but hh expression was unexpectedly increased midway through development. Thus, while the segmental expression of en/inv is broadly conserved within insects, the functions of en and inv are evolving independently in different lineages. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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13 pages, 5766 KiB  
Article
Bolwig Organ and Its Role in the Photoperiodic Response of Sarcophaga similis Larvae
by Kazuné Hirata and Sakiko Shiga
Insects 2023, 14(2), 115; https://doi.org/10.3390/insects14020115 - 23 Jan 2023
Viewed by 1806
Abstract
Flesh-fly Sarcophaga similis larvae exhibit a photoperiodic response, in which short days induce pupal diapause for seasonal adaptation. Although the spectral sensitivity of photoperiodic photoreception is known, the photoreceptor organ remains unclear. We morphologically identified the Bolwig organ, a larval-photoreceptor identified in several [...] Read more.
Flesh-fly Sarcophaga similis larvae exhibit a photoperiodic response, in which short days induce pupal diapause for seasonal adaptation. Although the spectral sensitivity of photoperiodic photoreception is known, the photoreceptor organ remains unclear. We morphologically identified the Bolwig organ, a larval-photoreceptor identified in several other fly species, and examined the effects of its removal on the photoperiodic response in S. similis. Backfill-staining and embryonic-lethal-abnormal-vision (ELAV) immunohistochemical-staining identified ~34 and 38 cells, respectively, in a spherical body at the ocular depression of the cephalopharyngeal skeleton, suggesting that the spherical body is the Bolwig organ in S. similis. Forward-fill and immunohistochemistry revealed that Bolwig-organ neurons terminate in the vicinity of the dendritic fibres of pigment-dispersing factor-immunoreactive and potential circadian-clock neurons in the brain. After surgical removal of the Bolwig-organ regions, diapause incidence was not significantly different between short and long days, and was similar to that in the insects with an intact organ, under constant darkness. However, diapause incidence was not significantly different between the control and Bolwig-organ-removed insects for each photoperiod. These results suggest that the Bolwig organ contributes partially to photoperiodic photoreception, and that other photoreceptors may also be involved. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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15 pages, 2121 KiB  
Article
Developmental Plasticity in Butterfly Eyespot Mutants: Variation in Thermal Reaction Norms across Genotypes and Pigmentation Traits
by Ana Rita Amaro Mateus and Patrícia Beldade
Insects 2022, 13(11), 1000; https://doi.org/10.3390/insects13111000 - 31 Oct 2022
Cited by 2 | Viewed by 1884
Abstract
Developmental plasticity refers to the property by which a genotype corresponds to distinct phenotypes depending on the environmental conditions experienced during development. This dependence of phenotype expression on environment is graphically represented by reaction norms, which can differ between traits and between genotypes. [...] Read more.
Developmental plasticity refers to the property by which a genotype corresponds to distinct phenotypes depending on the environmental conditions experienced during development. This dependence of phenotype expression on environment is graphically represented by reaction norms, which can differ between traits and between genotypes. Even though genetic variation for reaction norms provides the basis for the evolution of plasticity, we know little about the genes that contribute to that variation. This includes understanding to what extent those are the same genes that contribute to inter-individual variation in a fixed environment. Here, we quantified thermal plasticity in butterfly lines that differ in pigmentation phenotype to test the hypothesis that alleles affecting pigmentation also affect plasticity therein. We characterized thermal reaction norms for eyespot color rings of distinct Bicyclus anynana genetic backgrounds, corresponding to allelic variants affecting eyespot size and color composition. Our results reveal genetic variation for the slope and curvature of reaction norms, with differences between eyespots and between eyespot color rings, as well as between sexes. Our report of prevalent temperature-dependent and compartment-specific allelic effects underscores the complexity of genotype-by-environment interactions and their consequence for the evolution of developmental plasticity. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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10 pages, 1217 KiB  
Article
Feeding Preferences and Responses of Monochamus saltuarius to Volatile Components of Host Pine Trees
by Jue Wang, Sufang Zhang and Yanan Zheng
Insects 2022, 13(10), 888; https://doi.org/10.3390/insects13100888 - 29 Sep 2022
Viewed by 1304
Abstract
Monochamus saltuarius is a vector of Bursaphelenchus xylophilus and has caused massive mortality in pine trees in Japan, South Korea, and the middle temperate zone of China. In this study, the feeding preferences of M. saltuarius to four common host pine species in [...] Read more.
Monochamus saltuarius is a vector of Bursaphelenchus xylophilus and has caused massive mortality in pine trees in Japan, South Korea, and the middle temperate zone of China. In this study, the feeding preferences of M. saltuarius to four common host pine species in the middle temperate zone of China were investigated in a laboratory. The volatiles of the four host pine species were sampled and analyzed by gas chromatography and mass spectrometry. The responses of M. saltuarius to host pine tree volatiles were measured using a four-arm olfactometer. The results showed that: (1) the preference of M. saltuarius for Pine tabulaeformis was significantly higher than the other ones. (2) The composition and content of the volatiles of the four tested host pine twigs were different, and the relative content of α-pinene was the highest. (3) M. saltuarius was highly sensitive to α-pinene, β-pinene, limonene, and 3-carene, and the attracting effect was enhanced by the mixture of volatile components. This study provides a reference for the development and application of attractants for M. saltuarius. Our results would be helpful in controlling M. saltuarius and pine wilt disease. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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Review

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31 pages, 1130 KiB  
Review
Staying Dry and Clean: An Insect’s Guide to Hydrophobicity
by Elizabeth Bello, Yutao Chen and Marianne Alleyne
Insects 2023, 14(1), 42; https://doi.org/10.3390/insects14010042 - 31 Dec 2022
Cited by 5 | Viewed by 3840
Abstract
Insects demonstrate a wide diversity of microscopic cuticular and extra-cuticular features. These features often produce multifunctional surfaces which are greatly desired in engineering and material science fields. Among these functionalities, hydrophobicity is of particular interest and has gained recent attention as it often [...] Read more.
Insects demonstrate a wide diversity of microscopic cuticular and extra-cuticular features. These features often produce multifunctional surfaces which are greatly desired in engineering and material science fields. Among these functionalities, hydrophobicity is of particular interest and has gained recent attention as it often results in other properties such as self-cleaning, anti-biofouling, and anti-corrosion. We reviewed the historical and contemporary scientific literature to create an extensive review of known hydrophobic and superhydrophobic structures in insects. We found that numerous insects across at least fourteen taxonomic orders possess a wide variety of cuticular surface chemicals and physical structures that promote hydrophobicity. We discuss a few bioinspired design examples of how insects have already inspired new technologies. Moving forward, the use of a bioinspiration framework will help us gain insight into how and why these systems work in nature. Undoubtedly, our fundamental understanding of the physical and chemical principles that result in functional insect surfaces will continue to facilitate the design and production of novel materials. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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15 pages, 1163 KiB  
Review
From Mosquito Ovaries to Ecdysone; from Ecdysone to Wolbachia: One Woman’s Career in Insect Biology
by Ann M. Fallon
Insects 2022, 13(8), 756; https://doi.org/10.3390/insects13080756 - 22 Aug 2022
Cited by 2 | Viewed by 2203
Abstract
In anautogenous mosquitoes, synchronous development of terminal ovarian follicles after a blood meal provides an important model for studies on insect reproduction. Removal and implantation of ovaries, in vitro culture of dissected tissues and immunological assays for vitellogenin synthesis by the fat body [...] Read more.
In anautogenous mosquitoes, synchronous development of terminal ovarian follicles after a blood meal provides an important model for studies on insect reproduction. Removal and implantation of ovaries, in vitro culture of dissected tissues and immunological assays for vitellogenin synthesis by the fat body showed that the Aedes aegypti (L.) (Diptera, Culicidae) mosquito ovary produces a factor essential for egg production. The discovery that the ovarian factor was the insect steroid hormone, ecdysone, provided a model for co-option of the larval hormones as reproductive hormones in adult insects. In later work on cultured mosquito cells, ecdysone was shown to arrest the cell cycle, resulting in an accumulation of diploid cells in G1, prior to initiation of DNA synthesis. Some mosquito species, such as Culex pipiens L. (Diptera, Culicidae), harbor the obligate intracellular bacterium, Wolbachia pipientis Hertig (Rickettsiales, Anaplasmataceae), in their reproductive tissues. When maintained in mosquito cell lines, Wolbachia abundance increases in ecdysone-arrested cells. This observation facilitated the recovery of high levels of Wolbachia from cultured cells for microinjection and genetic manipulation. In female Culex pipiens, it will be of interest to explore how hormonal cues that support initiation and progression of the vitellogenic cycle influence Wolbachia replication and transmission to subsequent generations via infected eggs. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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18 pages, 1389 KiB  
Review
Drosophila Glue: A Promising Model for Bioadhesion
by Manon Monier and Virginie Courtier-Orgogozo
Insects 2022, 13(8), 734; https://doi.org/10.3390/insects13080734 - 16 Aug 2022
Cited by 3 | Viewed by 3253
Abstract
The glue produced by Drosophila larvae to attach themselves to a substrate for several days and resist predation until the end of metamorphosis represents an attractive model to develop new adhesives for dry environments. The adhesive properties of this interesting material have been [...] Read more.
The glue produced by Drosophila larvae to attach themselves to a substrate for several days and resist predation until the end of metamorphosis represents an attractive model to develop new adhesives for dry environments. The adhesive properties of this interesting material have been investigated recently, and it was found that it binds as well as strongly adhesive commercial tapes to various types of substrates. This glue hardens rapidly after excretion and is made of several proteins. In D. melanogaster, eight glue proteins have been identified: four are long glycosylated mucoproteins containing repeats rich in prolines, serines and threonines, and four others are shorter proteins rich in cysteines. This protein mix is produced by the salivary glands through a complex packaging process that is starting to be elucidated. Drosophila species have adapted to stick to various substrates in diverse environmental conditions and glue genes appear to evolve rapidly in terms of gene number, number of repeats and sequence of the repeat motifs. Interestingly, besides its adhesive properties, the glue may also have antimicrobial activities. We discuss future perspectives and avenues of research for the development of new bioadhesives mimicking Drosophila fly glue. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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10 pages, 773 KiB  
Review
The Effects of Male Seminal Fluid Proteins on Gut/Gonad Interactions in Drosophila
by Melissa A. White and Mariana F. Wolfner
Insects 2022, 13(7), 623; https://doi.org/10.3390/insects13070623 - 13 Jul 2022
Cited by 4 | Viewed by 2088
Abstract
Mating initiates broad physiological changes encompassing multiple organ systems in females. Elucidating the complex inter- and intra-organ signaling events that coordinate these physiological changes is an important goal in the field of reproductive biology. Further characterization of these complex molecular and physiological interactions [...] Read more.
Mating initiates broad physiological changes encompassing multiple organ systems in females. Elucidating the complex inter- and intra-organ signaling events that coordinate these physiological changes is an important goal in the field of reproductive biology. Further characterization of these complex molecular and physiological interactions is key to understanding how females meet the energetic demands of offspring production. Many recent studies of the fruit fly, Drosophila melanogaster, have described the mechanisms of post-mating changes within the female reproductive tract and digestive system. Additionally, other studies have described post-mating signaling crosstalk between these systems. Interestingly, male seminal fluid proteins have been linked to post-mating responses within the female reproductive tract and gut, and to signaling events between the two organ systems. However, information about the hormonal and neuronal signaling pathways underlying the post-mating signaling events within and between the reproductive tract and digestive systems that are triggered by seminal fluid proteins has yet to be combined into a single view. In this article, we summarize and integrate these studies into a single “network schematic” of the known signaling events within and between the reproductive and digestive systems downstream of male seminal fluid proteins. This synthesis also draws attention to the incomplete parts of these pathways, so that outstanding questions may be addressed in future studies. Full article
(This article belongs to the Special Issue Contributions of Women in Insect Science)
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