Intracellular regulation of the insect chemoreceptor complex impacts odor localization in flying insects

Getahun, Merid N.; Thoma, Michael; Lavista-Llanos, Sofía; Keesey, Ian W.; Fandino, Richard A.; Knaden, Markus; Wicher, Dieter; Olsson, Shannon B.; Hansson, Bill S.

doi:10.1242/jeb.143396

Cited by 36 publications

(42 citation statements)

References 78 publications

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“…(2) Ors may represent an adaptation to insect flight (Missbach et al, 2014), which is supported by the observation that Ors are typically more sensitive to their ligands than Irs, that Orexpressing sensory neurons respond more readily and reliably to short odor pulses typical for in-flight odor detection than their Ir-expressing counterparts, and that sensitivity of the Or/Orco complex can be adjusted by a variety of modulatory mechanisms (Sargsyan et al, 2011;Getahun et al, 2012Getahun et al, , 2016Mukunda et al, 2014;Guo et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

et al. 2019

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The insect odorant receptor (Or) gene family is among the largest multigene families in insect genomes, but its evolutionary origin and mode of expansion is still a matter of debate. We performed transcriptomic surveys of two wingless insect species, the silverfish Lepisma saccharina and Tricholepidion gertschi, and identified multiple Or gene family members in both species. A phylogenetic analysis suggests that the silverfish Ors do not fall into the clade comprised of more derived flying insect ligand-binding Ors, but, along with bristletail, firebrat and some mayfly Ors, are consistently resolved as a distinct set of genes that may constitute an evolutionary intermediate between gustatory receptors and the more derived Ors of flying insects. We propose to consider these "primitive Ors" separately from higher insect Ors until their cellular expression patterns and function are resolved and suggest a multistep evolutionary scenario ultimately leading to the highly sensitive, rapidly evolving and physiologically diverse Or gene family observed in higher insects.

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Section: Introductionmentioning

confidence: 99%

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

et al. 2019

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“…In flight, odorant plumes are presented to the insect as intermittent packets of odor blends in a turbulent air stream (90) and OR-mediated olfaction is involved in directing plume tracking behaviors (91). Moth odor- guided flight behaviors are facilitated through the intermittency of odor packets in a visually aided up-wind flight path (90, 92).…”

Section: Discussionmentioning

confidence: 99%

Mutagenesis oforcoimpairs foraging but not oviposition in the hawkmothManduca sexta

Fandino

Haverkamp

Bisch-Knaden

et al. 2019

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Plant volatile detection through olfaction plays a crucial role in insect behaviors. In vivo, the odorant receptor co-receptor orco is an obligatory component for the function of odorant receptors (ORs), a major receptor family involved in insect olfaction. We used CRISPR-Cas9 targeted mutagenesis to knock-out (KO) orco in a neurophysiological model species, the hawkmoth Manduca sexta. M. sexta and its host, the Sacred Datura (Datura wrightii) share a model insect-plant relationship based on mutualistic and antagonistic life history traits. D. wrightii is the innately preferred nectar-source and oviposition host for M. sexta. Hence, the hawkmoth is an important pollinator while the M. sexta larvae are specialized herbivores of the plant. We generated an orco KO through CRISPR-Cas9 to test the consequences of a loss of OR-mediated olfaction in this insect-plant relationship. Neurophysiological characterization revealed severely reduced antennal and antennal lobe responses to representative odorants emitted by D. wrightii. In a wind-tunnel setting with a flowering plant, orco KO hawkmoths showed disrupted flight orientation and an ablated proboscis extension response to the natural stimulus. However, when testing the oviposition behavior of mated females encountering a non-flowering plant, there was no difference between orco KO and wild type females regarding upwind flight orientation and number of eggs laid. Overall, OR-mediated olfaction is essential for foraging and pollination behaviors, but plant-seeking and oviposition behaviors appear largely unaffected. Significance statement Insects detect plant volatiles mainly through the expression of ORs and IRs on the antennal olfactory sensory neurons (OSNs). In vivo, Orco is an obligate partner for OR, but not IR function and ORs mediate a vast spectrum of olfactory perception. We applied CRISPR-Cas9 in M. sexta to mutate the orco gene and determine the physiological and behavioral implication of a loss of Orco receptor function in a semi-ecological interaction with D. wrightii. We found that while behaviors related to foraging were largely disrupted, other sensory modalities outside Orco function determine the relationship between an ovipositing female and its plant host. These results have implications toward understanding the olfactory basis of insect-plant interactions shaping our ecological and agricultural landscapes.

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“…Two hypotheses have been proposed to explain the origin and expansion of the Or multigene family in insect genomes: (1) Ors may represent an adaptation to a terrestrial lifestyle (Brand et al, 2018;Robertson et al, 2003), which is supported by the tendency of Ors to detect hydrophobic compounds, whereas the more ancient Irs and Grs mostly detect hydrophilic substances. Moreover, Ors display, on average, a wider ligand spectrum than Irs, presumably allowing for the detection of a greater number of volatiles Ai et al, 2010;Hallem and Carlson, 2006;Min et al, 2013;Silbering et al, 2011); (2) Ors may represent an adaptation to insect flight (Missbach et al, 2014), which is supported by the observation that Ors are typically more sensitive to their ligands than Irs, that Or-expressing sensory neurons respond more readily and reliably to short odor pulses typical for in-flight odor detection than their Ir-expressing counterparts, and that sensitivity of the Or/Orco complex can be adjusted by a variety of modulatory mechanisms (Getahun et al, 2012(Getahun et al, , 2016Guo et al, 2017;Mukunda et al, 2014;Sargsyan et al, 2011). of the derived Orx/Orco system alongside the advent of insect flight (Missbach et al, 2014).…”

Section: Introductionmentioning

confidence: 98%

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

Thoma

Missbach

Jordan

et al. 2019

Preprint

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Intracellular regulation of the insect chemoreceptor complex impacts odor localization in flying insects

Cited by 36 publications

References 78 publications

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

Mutagenesis oforcoimpairs foraging but not oviposition in the hawkmothManduca sexta

Transcriptome Surveys in Silverfish Suggest a Multistep Origin of the Insect Odorant Receptor Gene Family

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