Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali

Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali

Malus sieversii is the wild progenitor for many cultivars of domesticated apple and an important germplasm resource for breeding. However, this valuable species faces a significant threat in the areas north of the Tianshan Mountains in China, by the invasion of Agrilus mali, a destructive pest of ap...

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Main Authors: Chuang Mei, Jie Yang, Peng Yan, Ning Li, Kai Ma, Aisajan Mamat, Liqun Han, Qinglong Dong, Ke Mao, Fengwang Ma, Jixun Wang
Format: Article
Language:English
Published: PeerJ Inc. 2020-05-01
Series:PeerJ
Subjects:
Malus sieversii
Agrilus mali
Gene discovery
Full-length transcriptome
Insect resistance
Online Access:https://peerj.com/articles/8992.pdf
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spelling doaj-2c0bd0430bee4967b96a120dcc3730082020-11-25T03:01:17ZengPeerJ Inc.PeerJ2167-83592020-05-018e899210.7717/peerj.8992Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus maliChuang Mei0Jie Yang1Peng Yan2Ning Li3Kai Ma4Aisajan Mamat5Liqun Han6Qinglong Dong7Ke Mao8Fengwang Ma9Jixun Wang10State Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A & F University, Yangling, Shaanxi, ChinaState Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A & F University, Yangling, Shaanxi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaState Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A & F University, Yangling, Shaanxi, ChinaState Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A & F University, Yangling, Shaanxi, ChinaState Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A & F University, Yangling, Shaanxi, ChinaInstitute of Horticultural Crops, Xinjiang Academy of Agricultural Sciences/Scientific Observing and Experimental Station of Pomology (Xinjiang), Ministry of Agriculture, Urumqi, ChinaMalus sieversii is the wild progenitor for many cultivars of domesticated apple and an important germplasm resource for breeding. However, this valuable species faces a significant threat in the areas north of the Tianshan Mountains in China, by the invasion of Agrilus mali, a destructive pest of apple trees belonging to the family Buprestidae. Our preliminary study has has shown that there may be resistance to this insect in M. sieversii plants in the field, but the corresponding molecular mechanisms remain unclear. In this study, we compared the response of insect-resistant and insect-susceptible plants of M. sieversii to insect feeding using full-length transcriptome and targeted metabolome. 112,103 non-chimeric full-length reads (FLNC) totaling 10.52 Gb of data were generating with Pacific Biosciences SingleMolecule, Real-Time (PacBio SMRT) sequencing. A total of 130.06 Gb data of long reads were acquired with an Illumina HiSeq. Function annotation indicated that the different expressed genes (DEGs) were mainly involved in signal transduction pathway of plant hormones and in the synthesis of compounds such as terpenes, quinones, flavonoids, and jasmonic acid. Through targeted metabolome analysis resistant strains showed higher levels of trans-cinnamic acid, caffeine and ferulic acid after pest infestation. This study helps to decipher the transcriptional changes and related signaling paths in M. sieversii after an insect feeding, which lays a foundation for further research on molecular mechanisms of insect resistance in apples.https://peerj.com/articles/8992.pdfMalus sieversiiAgrilus maliGene discoveryFull-length transcriptomeInsect resistance
collection DOAJ
language English
format Article
sources DOAJ
author Chuang Mei
Jie Yang
Peng Yan
Ning Li
Kai Ma
Aisajan Mamat
Liqun Han
Qinglong Dong
Ke Mao
Fengwang Ma
Jixun Wang
spellingShingle Chuang Mei
Jie Yang
Peng Yan
Ning Li
Kai Ma
Aisajan Mamat
Liqun Han
Qinglong Dong
Ke Mao
Fengwang Ma
Jixun Wang
Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
PeerJ
Malus sieversii
Agrilus mali
Gene discovery
Full-length transcriptome
Insect resistance
author_facet Chuang Mei
Jie Yang
Peng Yan
Ning Li
Kai Ma
Aisajan Mamat
Liqun Han
Qinglong Dong
Ke Mao
Fengwang Ma
Jixun Wang
author_sort Chuang Mei
title Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
title_short Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
title_full Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
title_fullStr Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
title_full_unstemmed Full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of Malus sieversii against Agrilus mali
title_sort full-length transcriptome and targeted metabolome analyses provide insights into defense mechanisms of malus sieversii against agrilus mali
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-05-01
description Malus sieversii is the wild progenitor for many cultivars of domesticated apple and an important germplasm resource for breeding. However, this valuable species faces a significant threat in the areas north of the Tianshan Mountains in China, by the invasion of Agrilus mali, a destructive pest of apple trees belonging to the family Buprestidae. Our preliminary study has has shown that there may be resistance to this insect in M. sieversii plants in the field, but the corresponding molecular mechanisms remain unclear. In this study, we compared the response of insect-resistant and insect-susceptible plants of M. sieversii to insect feeding using full-length transcriptome and targeted metabolome. 112,103 non-chimeric full-length reads (FLNC) totaling 10.52 Gb of data were generating with Pacific Biosciences SingleMolecule, Real-Time (PacBio SMRT) sequencing. A total of 130.06 Gb data of long reads were acquired with an Illumina HiSeq. Function annotation indicated that the different expressed genes (DEGs) were mainly involved in signal transduction pathway of plant hormones and in the synthesis of compounds such as terpenes, quinones, flavonoids, and jasmonic acid. Through targeted metabolome analysis resistant strains showed higher levels of trans-cinnamic acid, caffeine and ferulic acid after pest infestation. This study helps to decipher the transcriptional changes and related signaling paths in M. sieversii after an insect feeding, which lays a foundation for further research on molecular mechanisms of insect resistance in apples.
topic Malus sieversii
Agrilus mali
Gene discovery
Full-length transcriptome
Insect resistance
url https://peerj.com/articles/8992.pdf
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