Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference

Natalie Howlett; Katherine L. Dauber; Aditi Shukla; Brian Morton; John I. Glendinning; Elyssa Brent; Caroline Gleason; Fahmida Islam; Denisse Izquierdo; Sweta Sanghavi; Anika Afroz; Aanam Aslam; Marissa Barbaro; Rebekah Blutstein; Margarita Borovka; Brianna Desire; Ayala Elikhis; Qing Fan; Katherine Hoffman; Amy Huang; Dominique Keefe; Sarah Lopatin; Samara Miller; Priyata Patel; Danielle Rizzini; Alyssa Robinson; Karimah Rokins; Aneta Turlik; Jennifer H. Mansfield

doi:10.1186/1471-2164-13-211

Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference

Natalie Howlett
, Katherine L. Dauber
, Aditi Shukla
, Brian Morton
, John I. Glendinning
, Elyssa Brent
, Caroline Gleason
, Fahmida Islam
, Denisse Izquierdo
, Sweta Sanghavi
, Anika Afroz
, Aanam Aslam
, Marissa Barbaro
, Rebekah Blutstein
, Margarita Borovka
, Brianna Desire
, Ayala Elikhis
, Qing Fan
, Katherine Hoffman
, Amy Huang

Dominique Keefe, Sarah Lopatin, Samara Miller, Priyata Patel, Danielle Rizzini, Alyssa Robinson, Karimah Rokins, Aneta Turlik, Jennifer H. Mansfield

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Background: Insects detect environmental chemicals via a large and rapidly evolving family of chemosensory receptor proteins. Although our understanding of the molecular genetic basis for Drosophila chemoreception has increased enormously in the last decade, similar understanding in other insects remains limited. The tobacco hornworm, Manduca sexta, has long been an important model for insect chemosensation, particularly from ecological, behavioral, and physiological standpoints. It is also a major agricultural pest on solanaceous crops. However, little sequence information and lack of genetic tools has prevented molecular genetic analysis in this species. The ability to connect molecular genetic mechanisms, including potential lineage-specific changes in chemosensory genes, to ecologically relevant behaviors and specializations in M. sexta would be greatly beneficial.Results: Here, we sequenced transcriptomes from adult and larval chemosensory tissues and identified chemosensory genes based on sequence homology. We also used dsRNA feeding as a method to induce RNA interference in larval chemosensory tissues.Conclusions: We report identification of new chemosensory receptor genes including 17 novel odorant receptors and one novel gustatory receptor. Further, we demonstrate that systemic RNA interference can be used in larval olfactory neurons to reduce expression of chemosensory receptor transcripts. Together, our results further the development of M. sexta as a model for functional analysis of insect chemosensation.

Original language	English
Article number	211
Journal	BMC Genomics
Volume	13
Issue number	1
DOIs	https://doi.org/10.1186/1471-2164-13-211
State	Published - 30 May 2012
Externally published	Yes

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10.1186/1471-2164-13-211

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Howlett, N., Dauber, K. L., Shukla, A., Morton, B., Glendinning, J. I., Brent, E., Gleason, C., Islam, F., Izquierdo, D., Sanghavi, S., Afroz, A., Aslam, A., Barbaro, M., Blutstein, R., Borovka, M., Desire, B., Elikhis, A., Fan, Q., Hoffman, K., ... Mansfield, J. H. (2012). Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference. BMC Genomics, 13(1), Article 211. https://doi.org/10.1186/1471-2164-13-211

@article{41d5f521004a4d10b9eb64abffc555bd,

title = "Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference",

abstract = "Background: Insects detect environmental chemicals via a large and rapidly evolving family of chemosensory receptor proteins. Although our understanding of the molecular genetic basis for Drosophila chemoreception has increased enormously in the last decade, similar understanding in other insects remains limited. The tobacco hornworm, Manduca sexta, has long been an important model for insect chemosensation, particularly from ecological, behavioral, and physiological standpoints. It is also a major agricultural pest on solanaceous crops. However, little sequence information and lack of genetic tools has prevented molecular genetic analysis in this species. The ability to connect molecular genetic mechanisms, including potential lineage-specific changes in chemosensory genes, to ecologically relevant behaviors and specializations in M. sexta would be greatly beneficial.Results: Here, we sequenced transcriptomes from adult and larval chemosensory tissues and identified chemosensory genes based on sequence homology. We also used dsRNA feeding as a method to induce RNA interference in larval chemosensory tissues.Conclusions: We report identification of new chemosensory receptor genes including 17 novel odorant receptors and one novel gustatory receptor. Further, we demonstrate that systemic RNA interference can be used in larval olfactory neurons to reduce expression of chemosensory receptor transcripts. Together, our results further the development of M. sexta as a model for functional analysis of insect chemosensation.",

author = "Natalie Howlett and Dauber, \{Katherine L.\} and Aditi Shukla and Brian Morton and Glendinning, \{John I.\} and Elyssa Brent and Caroline Gleason and Fahmida Islam and Denisse Izquierdo and Sweta Sanghavi and Anika Afroz and Aanam Aslam and Marissa Barbaro and Rebekah Blutstein and Margarita Borovka and Brianna Desire and Ayala Elikhis and Qing Fan and Katherine Hoffman and Amy Huang and Dominique Keefe and Sarah Lopatin and Samara Miller and Priyata Patel and Danielle Rizzini and Alyssa Robinson and Karimah Rokins and Aneta Turlik and Mansfield, \{Jennifer H.\}",

note = "Funding Information: We thank Hugh Robertson for advice regarding transcriptome sequencing and Alvaro Hernandez and the Keck Center for Comparative and Functional Genomics at the University of Illinois Urbana-Champaign for cDNA preparation, sequencing and contig assembly. This work was supported by grants from the Howard Hughes Medical Institute, the Revson Foundation, and the National Science Foundation (DUE-0837334).",

year = "2012",

month = may,

day = "30",

doi = "10.1186/1471-2164-13-211",

language = "English",

volume = "13",

journal = "BMC Genomics",

issn = "1471-2164",

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Howlett, N, Dauber, KL, Shukla, A, Morton, B, Glendinning, JI, Brent, E, Gleason, C, Islam, F, Izquierdo, D, Sanghavi, S, Afroz, A, Aslam, A, Barbaro, M, Blutstein, R, Borovka, M, Desire, B, Elikhis, A, Fan, Q, Hoffman, K, Huang, A, Keefe, D, Lopatin, S, Miller, S, Patel, P, Rizzini, D, Robinson, A, Rokins, K, Turlik, A & Mansfield, JH 2012, 'Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference', BMC Genomics, vol. 13, no. 1, 211. https://doi.org/10.1186/1471-2164-13-211

TY - JOUR

T1 - Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference

AU - Howlett, Natalie

AU - Dauber, Katherine L.

AU - Shukla, Aditi

AU - Morton, Brian

AU - Glendinning, John I.

AU - Brent, Elyssa

AU - Gleason, Caroline

AU - Islam, Fahmida

AU - Izquierdo, Denisse

AU - Sanghavi, Sweta

AU - Afroz, Anika

AU - Aslam, Aanam

AU - Barbaro, Marissa

AU - Blutstein, Rebekah

AU - Borovka, Margarita

AU - Desire, Brianna

AU - Elikhis, Ayala

AU - Fan, Qing

AU - Hoffman, Katherine

AU - Huang, Amy

AU - Keefe, Dominique

AU - Lopatin, Sarah

AU - Miller, Samara

AU - Patel, Priyata

AU - Rizzini, Danielle

AU - Robinson, Alyssa

AU - Rokins, Karimah

AU - Turlik, Aneta

AU - Mansfield, Jennifer H.

N1 - Funding Information: We thank Hugh Robertson for advice regarding transcriptome sequencing and Alvaro Hernandez and the Keck Center for Comparative and Functional Genomics at the University of Illinois Urbana-Champaign for cDNA preparation, sequencing and contig assembly. This work was supported by grants from the Howard Hughes Medical Institute, the Revson Foundation, and the National Science Foundation (DUE-0837334).

PY - 2012/5/30

Y1 - 2012/5/30

N2 - Background: Insects detect environmental chemicals via a large and rapidly evolving family of chemosensory receptor proteins. Although our understanding of the molecular genetic basis for Drosophila chemoreception has increased enormously in the last decade, similar understanding in other insects remains limited. The tobacco hornworm, Manduca sexta, has long been an important model for insect chemosensation, particularly from ecological, behavioral, and physiological standpoints. It is also a major agricultural pest on solanaceous crops. However, little sequence information and lack of genetic tools has prevented molecular genetic analysis in this species. The ability to connect molecular genetic mechanisms, including potential lineage-specific changes in chemosensory genes, to ecologically relevant behaviors and specializations in M. sexta would be greatly beneficial.Results: Here, we sequenced transcriptomes from adult and larval chemosensory tissues and identified chemosensory genes based on sequence homology. We also used dsRNA feeding as a method to induce RNA interference in larval chemosensory tissues.Conclusions: We report identification of new chemosensory receptor genes including 17 novel odorant receptors and one novel gustatory receptor. Further, we demonstrate that systemic RNA interference can be used in larval olfactory neurons to reduce expression of chemosensory receptor transcripts. Together, our results further the development of M. sexta as a model for functional analysis of insect chemosensation.

AB - Background: Insects detect environmental chemicals via a large and rapidly evolving family of chemosensory receptor proteins. Although our understanding of the molecular genetic basis for Drosophila chemoreception has increased enormously in the last decade, similar understanding in other insects remains limited. The tobacco hornworm, Manduca sexta, has long been an important model for insect chemosensation, particularly from ecological, behavioral, and physiological standpoints. It is also a major agricultural pest on solanaceous crops. However, little sequence information and lack of genetic tools has prevented molecular genetic analysis in this species. The ability to connect molecular genetic mechanisms, including potential lineage-specific changes in chemosensory genes, to ecologically relevant behaviors and specializations in M. sexta would be greatly beneficial.Results: Here, we sequenced transcriptomes from adult and larval chemosensory tissues and identified chemosensory genes based on sequence homology. We also used dsRNA feeding as a method to induce RNA interference in larval chemosensory tissues.Conclusions: We report identification of new chemosensory receptor genes including 17 novel odorant receptors and one novel gustatory receptor. Further, we demonstrate that systemic RNA interference can be used in larval olfactory neurons to reduce expression of chemosensory receptor transcripts. Together, our results further the development of M. sexta as a model for functional analysis of insect chemosensation.

UR - https://www.scopus.com/pages/publications/84861539088

U2 - 10.1186/1471-2164-13-211

DO - 10.1186/1471-2164-13-211

M3 - Article

C2 - 22646846

AN - SCOPUS:84861539088

SN - 1471-2164

VL - 13

JO - BMC Genomics

JF - BMC Genomics

IS - 1

M1 - 211

ER -

Identification of chemosensory receptor genes in Manduca sexta and knockdown by RNA interference

Abstract

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