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Author Organization: Max Planck Institute for Chemical Ecology

31 to 40 of 71 Results

Notonecta glauca - RNAseq data Oct 14, 2022 Vogel, Heiko, 2022, "Notonecta glauca - RNAseq data", https://doi.org/10.17617/3.B0WMNP, Edmond, V1 RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Notonecta glauca: 4553.A* = AMP 4553.B* = PMG 4553.C* = Gut 4553.D* = Rest Body
Corixa punctata - RNAseq data Oct 14, 2022 Vogel, Heiko, 2022, "Corixa punctata - RNAseq data", https://doi.org/10.17617/3.VOQQRJ, Edmond, V1 RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Corixa punctata: 4552.A* = AMP 4552.B* = PMG 4552.C* = Gut 4552.D* = Rest Body
Nepa cinerea - RNAseq data Oct 14, 2022 Vogel, Heiko, 2022, "Nepa cinerea - RNAseq data", https://doi.org/10.17617/3.7FEIDD, Edmond, V1 RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Nepa cinerea: 4277.A* = Acessory gland 4277.B* = AMG 4277.C* = PMG 4277.D* = Gut 4277.E* = Rest Body
Ilyocoris cimicoides - RNAseq data Oct 14, 2022 Heiko Vogel, 2022, "Ilyocoris cimicoides - RNAseq data", https://doi.org/10.17617/3.OSCGGN, Edmond, V1 RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Ilyocoris cimicoides: 4301.A* = Acessory gland 4301.B* = AMG 4301.C* = PMG 4301.D* = Gut 4301.E* = Rest Body
Testing hypotheses of a coevolutionary key innovation reveals a complex detoxification machinery involved in defusing the mustard oil bomb Sep 16, 2022 Okamura, Yu, 2022, "Testing hypotheses of a coevolutionary key innovation reveals a complex detoxification machinery involved in defusing the mustard oil bomb", https://doi.org/10.17617/3.AMIAIE, Edmond, V1
Genome sequencing provides insights into the evolution of gene families encoding plant cell wall-degrading enzymes in longhorned beetles Aug 29, 2022 Pauchet, Yannick, 2022, "Genome sequencing provides insights into the evolution of gene families encoding plant cell wall-degrading enzymes in longhorned beetles", https://doi.org/10.17617/3.XYUPD3, Edmond, V1 With more than 36,000 species, the longhorned beetles (family Cerambycidae) are a mega-diverse lineage of mostly xylophagous insects, all of which are represented by the sole sequenced genome of the Asian longhorned beetle (Anoplophora glabripennis; Lamiinae). Their successful ra...
Sex- and tissue-specific expression of chemosensory receptor genes in a hawkmoth Aug 11, 2022 Tom, Megha Treesa; Cortés Llorca, Lucas; Bucks, Sascha; Bisch-Knaden, Sonja; Hansson, Bill S, 2022, "Sex- and tissue-specific expression of chemosensory receptor genes in a hawkmoth", https://doi.org/10.17617/3.AEVVZV, Edmond, V1 This dataset contains gene expression data of chemosensory genes in nine different tissues (antennae, labial palps, proboscis, forelegs, midlegs, hindlegs, forewings, hindiwngs, and ovipositor) of the hawkmoth Manduca sexta. The data was generated using NanoString platform.
Alternative transcript splicing regulates UDP-glucosyltransferase-catalyzed detoxification of DIMBOA in the fall armyworm (Spodoptera frugiperda) Jun 9, 2022 Israni, Bhawana, 2022, "Alternative transcript splicing regulates UDP-glucosyltransferase-catalyzed detoxification of DIMBOA in the fall armyworm (Spodoptera frugiperda)", https://doi.org/10.17617/3.WTCPOX, Edmond, V1 Proteomics datasets- 1. Identification of interacting proteins identified via affinity purification of SfUGT33F28 variants expressed in insect cells. 2. EMSA- SfUGT33F28 interaction with insect nuclear proteins
Higher-order olfactory neurons in the lateral horn support odor valence and odor identity coding in Drosophila May 5, 2022 Das Chakraborty, Sudeshna, 2022, "Higher-order olfactory neurons in the lateral horn support odor valence and odor identity coding in Drosophila", https://doi.org/10.17617/3.88, Edmond, V1
Data from: Wolbachia causes cytoplasmic incompatibility, but not male-killing in a grain pest beetle Apr 25, 2022 Engl, Tobias; Kiefer, Julian Simon Thilo; Schmidt, Gerrit, 2022, "Data from: Wolbachia causes cytoplasmic incompatibility, but not male-killing in a grain pest beetle", https://doi.org/10.17617/3.KVFJTO, Edmond, V1 Bioassay data for Figures 2, 7, S1 Figures 2: Titers of Wolbachia wSur and Shikimatogenerans silvanidophilus across different life stages of Oryzaephilus surinamensis JKI based on quantitative PCR of 16S rRNA gene fragments. Figure 7: Influemce of wSur on embryo development (numb...

Notonecta glauca - RNAseq data

Oct 14, 2022

Vogel, Heiko, 2022, "Notonecta glauca - RNAseq data", https://doi.org/10.17617/3.B0WMNP, Edmond, V1

RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Notonecta glauca: 4553.A* = AMP 4553.B* = PMG 4553.C* = Gut 4553.D* = Rest Body

Corixa punctata - RNAseq data

Oct 14, 2022

Vogel, Heiko, 2022, "Corixa punctata - RNAseq data", https://doi.org/10.17617/3.VOQQRJ, Edmond, V1

RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Corixa punctata: 4552.A* = AMP 4552.B* = PMG 4552.C* = Gut 4552.D* = Rest Body

Nepa cinerea - RNAseq data

Oct 14, 2022

Vogel, Heiko, 2022, "Nepa cinerea - RNAseq data", https://doi.org/10.17617/3.7FEIDD, Edmond, V1

RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Nepa cinerea: 4277.A* = Acessory gland 4277.B* = AMG 4277.C* = PMG 4277.D* = Gut 4277.E* = Rest Body

Ilyocoris cimicoides - RNAseq data

Oct 14, 2022

Heiko Vogel, 2022, "Ilyocoris cimicoides - RNAseq data", https://doi.org/10.17617/3.OSCGGN, Edmond, V1

RNAseq Illumina raw reads (2 x 150bp paired reads) for different tissues of aquatic Ilyocoris cimicoides: 4301.A* = Acessory gland 4301.B* = AMG 4301.C* = PMG 4301.D* = Gut 4301.E* = Rest Body

Testing hypotheses of a coevolutionary key innovation reveals a complex detoxification machinery involved in defusing the mustard oil bomb

Sep 16, 2022

Okamura, Yu, 2022, "Testing hypotheses of a coevolutionary key innovation reveals a complex detoxification machinery involved in defusing the mustard oil bomb", https://doi.org/10.17617/3.AMIAIE, Edmond, V1

Genome sequencing provides insights into the evolution of gene families encoding plant cell wall-degrading enzymes in longhorned beetles

Aug 29, 2022

Pauchet, Yannick, 2022, "Genome sequencing provides insights into the evolution of gene families encoding plant cell wall-degrading enzymes in longhorned beetles", https://doi.org/10.17617/3.XYUPD3, Edmond, V1

With more than 36,000 species, the longhorned beetles (family Cerambycidae) are a mega-diverse lineage of mostly xylophagous insects, all of which are represented by the sole sequenced genome of the Asian longhorned beetle (Anoplophora glabripennis; Lamiinae). Their successful ra...

Sex- and tissue-specific expression of chemosensory receptor genes in a hawkmoth

Aug 11, 2022

Tom, Megha Treesa; Cortés Llorca, Lucas; Bucks, Sascha; Bisch-Knaden, Sonja; Hansson, Bill S, 2022, "Sex- and tissue-specific expression of chemosensory receptor genes in a hawkmoth", https://doi.org/10.17617/3.AEVVZV, Edmond, V1

This dataset contains gene expression data of chemosensory genes in nine different tissues (antennae, labial palps, proboscis, forelegs, midlegs, hindlegs, forewings, hindiwngs, and ovipositor) of the hawkmoth Manduca sexta. The data was generated using NanoString platform.

Alternative transcript splicing regulates UDP-glucosyltransferase-catalyzed detoxification of DIMBOA in the fall armyworm (Spodoptera frugiperda)

Jun 9, 2022

Israni, Bhawana, 2022, "Alternative transcript splicing regulates UDP-glucosyltransferase-catalyzed detoxification of DIMBOA in the fall armyworm (Spodoptera frugiperda)", https://doi.org/10.17617/3.WTCPOX, Edmond, V1

Proteomics datasets- 1. Identification of interacting proteins identified via affinity purification of SfUGT33F28 variants expressed in insect cells. 2. EMSA- SfUGT33F28 interaction with insect nuclear proteins

Higher-order olfactory neurons in the lateral horn support odor valence and odor identity coding in Drosophila

May 5, 2022

Das Chakraborty, Sudeshna, 2022, "Higher-order olfactory neurons in the lateral horn support odor valence and odor identity coding in Drosophila", https://doi.org/10.17617/3.88, Edmond, V1

Data from: Wolbachia causes cytoplasmic incompatibility, but not male-killing in a grain pest beetle

Apr 25, 2022

Engl, Tobias; Kiefer, Julian Simon Thilo; Schmidt, Gerrit, 2022, "Data from: Wolbachia causes cytoplasmic incompatibility, but not male-killing in a grain pest beetle", https://doi.org/10.17617/3.KVFJTO, Edmond, V1

Bioassay data for Figures 2, 7, S1 Figures 2: Titers of Wolbachia wSur and Shikimatogenerans silvanidophilus across different life stages of Oryzaephilus surinamensis JKI based on quantitative PCR of 16S rRNA gene fragments. Figure 7: Influemce of wSur on embryo development (numb...

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