Mechanisms of Trichomes and Terpene Compounds in Indigenous and Commercial Thai Rice Varieties against Brown Planthopper

Khetnon, Phawini; Busarakam, Kanungnid; Sukhaket, Wissarut; Niwaspragrit, Cholticha; Kamolsukyeunyong, Wintai; Kamata, Naoto; Sanguansub, Sunisa

doi:10.3390/insects13050427

Cited by 7 publications

(8 citation statements)

References 53 publications

(55 reference statements)

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“…This did not occur in three hybrids (IR80814H, IR81954H, and IR81955H) that showed heterobeltiosis for resistance, thereby further suggesting that quantitative resistance to planthoppers is achievable through the careful selection of parental lines. In our oviposition experiments, plant size affected one of two cases of heterosis for antixenosis resistance; suggesting that there was little effect of breeding on other factors, such as plant volatiles or silicon-based defenses [ 48 , 49 , 50 , 51 , 52 , 53 , 54 ] that are involved in antixenosis resistance. The experiments indicate the importance of separating physiologically-dependent susceptibility (e.g., related to size, growth rates, etc.)…”

Section: Discussionmentioning

confidence: 86%

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Heterosis for Resistance to Insect Herbivores in a 3-Line Hybrid Rice System

Horgan,

Bernal,

Ramal

et al. 2024

Insects

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Three-line hybrid rice is produced by crossing male sterile (A line) rice with a fertility-restorer (R line). Fertile lines (B lines) are also required to maintain A line seed for breeding programs. We used a range of hybrids and their parental lines to assess the frequency and nature of heterosis for resistance to the whitebacked planthopper (Sogatella furcifera), brown planthopper (Nilaparvata lugens) and yellow stemborer (Scirpophaga incertulas). Heterosis is defined as trait improvement above the average of the parental lines as a result of outbreeding. Based on the results from a greenhouse study that challenged hybrids and their parental lines with each herbivore species, we found that susceptibility to planthoppers was associated with one of the eight A lines tested, but resistance was improved by crossing with a relatively resistant restorer. Higher frequencies of heterosis for susceptibility in comparisons between hybrids and their B lines suggest that susceptibility was not related to the cytoplasmic genomes of the associated sterile A lines. Furthermore, because none of the parental lines possessed currently effective resistance genes, improved resistance against planthoppers was probably due to quantitative resistance. In a related field trial, hybrids had generally higher yields than their fertile parents and often produced larger grain; however, they were often more susceptible to stemborers, leaffolders (Cnaphalocrocis medinalis) and other caterpillars (Rivula atimeta). This was largely a consequence of hybrid heterosis for plant biomass and was strongly affected by crop duration. We make a series of recommendations to improve hybrid breeding to reduce the risks of herbivore damage.

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Section: Discussionmentioning

confidence: 86%

“…The experiments indicate the importance of separating physiologically-dependent susceptibility (e.g., related to size, growth rates, etc.) of rice lines from biochemical or other anatomical features, such as surface waxes or leaf hairs [ 48 , 55 , 56 ] that may be more closely associated with specific and heritable herbivore defenses.…”

Section: Discussionmentioning

confidence: 99%

Heterosis for Resistance to Insect Herbivores in a 3-Line Hybrid Rice System

Horgan,

Bernal,

Ramal

et al. 2024

Insects

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“…In rice, BPH infestation increases VOC emission and changes the profile of VOCs [ 37 ]. Manipulation of volatile emissions in crops has great potential for the control of pest populations.…”

Section: Discussionmentioning

confidence: 99%

The Bph45 Gene Confers Resistance against Brown Planthopper in Rice by Reducing the Production of Limonene

Huang³

et al. 2023

IJMS

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Brown planthopper (BPH), a monophagous phloem feeder, consumes a large amount of photoassimilates in rice and causes wilting. A near-isogenic line ‘TNG71-Bph45’ was developed from the Oryza sativa japonica variety ‘Tainung 71 (TNG71) carrying a dominant BPH-resistance locus derived from Oryza nivara (IRGC 102165) near the centromere of chromosome 4. We compared the NIL (TNG71-Bph45) and the recurrent parent to explore how the Bph45 gene confers BPH resistance. We found that TNG71-Bph45 is less attractive to BPH at least partially because it produces less limonene. Chiral analysis revealed that the major form of limonene in both rice lines was the L-form. However, both L- and D-limonene attracted BPH when applied exogenously to TNG71-Bph45 rice. The transcript amounts of limonene synthase were significantly higher in TNG71 than in TNG71-Bph45 and were induced by BPH infestation only in the former. Introgression of the Bph45 gene into another japonica variety, Tainan 11, also resulted in a low limonene content. Moreover, several dominantly acting BPH resistance genes introduced into the BPH-sensitive IR24 line compromised its limonene-producing ability and concurrently decreased its attractiveness to BPH. These observations suggest that reducing limonene production may be a common resistance strategy against BPH in rice.

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“…Macro hairs are observed in silica cells; whereas, micro and glandular hairs are found on stomatal cells or beside the motor cells (Li et al 2010 ). Khetnon et al ( 2022 ) showed that rice can have four types of non-glandular trichomes: prickle, macro, micro and papillae trichomes (Fig. 1 ).…”

Section: Physical Defenses In Ricementioning

confidence: 99%

“…Sandhu and Sarao ( 2021 ) reported that the population of nymphs and adults of BPH were much lower in genotypes with longer and denser trichomes than in susceptible genotypes such as TN1. However, Khetnon et al ( 2022 ) claimed that the physical defense by trichomes was not effective against BPH because trichomes were not tough enough to prevent colonization by the second and third instars. According to Karban et al ( 2002 ), the removal of silicified non-glandular trichomes in rice increased the frequency of damage to leaf sections including the basal region, which was not preferred by the herbivores in the presence of unidirectional structures.…”

Section: Physical Defenses In Ricementioning

confidence: 99%

Rice physical defenses and their role against insect herbivores

Balakrishnan,

Bateman,

Kariyat

2024

Planta

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Main conclusion Understanding surface defenses, a relatively unexplored area in rice can provide valuable insight into constitutive and induced defenses against herbivores. Abstract Plants have evolved a multi-layered defense system against the wide range of pests that constantly attack them. Physical defenses comprised of trichomes, wax, silica, callose, and lignin, and are considered as the first line of defense against herbivory that can directly affect herbivores by restricting or deterring them. Most studies on physical defenses against insect herbivores have been focused on dicots compared to monocots, although monocots include one of the most important crops, rice, which half of the global population is dependent on as their staple food. In rice, Silica is an important element stimulating plant growth, although Silica has also been found to impart resistance against herbivores. However, other physical defenses in rice including wax, trichomes, callose, and lignin are less explored. A detailed exploration of the morphological structures and functional consequences of physical defense structures in rice can assist in incorporating these resistance traits in plant breeding and genetic improvement programs, and thereby potentially reduce the use of chemicals in the field. This mini review addresses these points with a closer look at current literature and prospects on rice physical defenses.

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Mechanisms of Trichomes and Terpene Compounds in Indigenous and Commercial Thai Rice Varieties against Brown Planthopper

Cited by 7 publications

References 53 publications

Heterosis for Resistance to Insect Herbivores in a 3-Line Hybrid Rice System

Heterosis for Resistance to Insect Herbivores in a 3-Line Hybrid Rice System

The Bph45 Gene Confers Resistance against Brown Planthopper in Rice by Reducing the Production of Limonene

Rice physical defenses and their role against insect herbivores

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