Data_Sheet_1_Positive effects of Cordyceps cateniannulata colonization in tobacco: Growth promotion and resistance to abiotic stress.docx by Lu Qiao (2861384)

“…</p>Conclusion<p>Specific strains of C. cateniannulata can be introduced into host plants as endophytes, resulting in promotion of host plant growth and increased resistance to abiotic stress and microbial pathogens. …”

Data_Sheet_1_Positive effects of Cordyceps cateniannulata colonization in tobacco: Growth promotion and resistance to abiotic stress.docx by Lu Qiao (2861384)

“…</p>Conclusion<p>Specific strains of C. cateniannulata can be introduced into host plants as endophytes, resulting in promotion of host plant growth and increased resistance to abiotic stress and microbial pathogens. …”

Table_4_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_7_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_8_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_3_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_1_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_9_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_6_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_2_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

DataSheet_1_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

Table_5_Ozone and nitrogen dioxide regulate similar gene expression responses in Arabidopsis but natural variation in the extent of cell death is likely controlled by different gen... by Johanna Leppälä (522909)

“…We compared transcriptome data from O₃ and NO₂ fumigations to other cell death related treatments, as well as individual marker gene transcript level in different Arabidopsis thaliana accessions. Our analysis revealed that O₃ and NO₂ trigger very similar gene expression responses that include genes involved in pathogen resistance, cell death and ethylene signaling. …”

DataSheet_7_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

DataSheet_1_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

DataSheet_8_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

Table_2_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).xlsx by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

DataSheet_2_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

DataSheet_4_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

DataSheet_5_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).pdf by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”

Table_4_Last-Generation Genome–Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.).xlsx by Felipe López-Hernández (7911326)

“…Common bean (Phaseolus vulgaris L.) is the most important legume for human consumption, and breeding it for resistance to heat stress is key because annual increases in atmospheric temperature are causing decreases in yield of up to 9% for every 1°C. …”