Planthopper infestation in rice causes direct and indirect damage through feeding and viral transmission. Host microbes and small RNAs (sRNAs) play essential roles in regulating biological processes, such as metabolism, development, immunity, and stress responses in eukaryotic organisms, including plants and insects. Recently, advanced metagenomic approaches have facilitated investigations on microbial diversity and its function in insects and plants, highlighting the significance of microbiota in sustaining host life and regulating their interactions with the environment. Recent research has also suggested significant roles for sRNA-regulated genes during rice–planthopper interactions. The response and behavior of the rice plant to planthopper feeding are determined by changes in the host transcriptome, which might be regulated by sRNAs. In addition, the roles of microbial symbionts and sRNAs in the host response to viral infection are complex and involve defense-related changes in the host transcriptomic profile. This review reviews the structure and potential functions of microbes and sRNAs in rice and the associated planthopper species. In addition, the involvement of the microbiota and sRNAs in the rice–planthopper–virus interactions during planthopper infestation and viral infection are discussed.

1 Juarez, M. T., "microRNA-mediated repression of rolled leaf1 specifies maize leaf polarity" 428 : 84-88, 2004

2 Niu, D., "miRNA863-3p sequentially targets negative immune regulator ARLPKs and positive regulator SERRATE upon bacterial infection" 7 : 11324-, 2016

3 United Nations, "World population prospects" United Nations 91-, 2005

4 Mayoral, J. G., "Wolbachia small noncoding RNAs and their role in cross-kingdom communications" 111 : 18721-18726, 2014

5 Wu, J., "Viral-inducible Argonaute18 confers broad-spectrum virus resistance in rice by sequestering a host microRNA" 4 : e05733-, 2015

6 Hussain, Q., "Variation of bacterial and fungal community structures in the rhizosphere of hybrid and standard rice cultivars and linkage to CO2 flux" 78 : 116-128, 2011

7 Sánchez-Cañizares, C., "Understanding the holobiont : the interdependence of plants and their microbiome" 38 : 188-196, 2017

8 Cook, D. E., "Understanding plant immunity as a surveillance system to detect invasion" 53 : 541-563, 2015

9 Shikano, I., "Tritrophic interactions : microbe-mediated plant effects on insect herbivores" 55 : 313-331, 2017

10 Miller, D. L., "Transitions and transmission : behavior and physiology as drivers of honey bee-associated microbial communities" 50 : 1-7, 2019

11 Yu, H., "Transcriptome analysis of fat bodies from two brown planthopper(Nilaparvata lugens)populations with different virulence levels in rice" 9 : e88528-, 2014

12 Song, Y., "Three antimicrobials alter gut microbial communities and causing different mortality of brown planthopper, Nilaparvata lugens Stål" 174 : 104806-, 2021

13 Bonnet, E., "The small RNA world of plants" 171 : 451-468, 2006

14 Kim, H., "The rice microbiome : a model platform for crop holobiome" 4 : 5-18, 2020

15 Buée, M., "The rhizosphere zoo : an overview of plant-associated communities of microorganisms, including phages, bacteria, archaea, and fungi, and of some of their structuring factors" 321 : 189-212, 2009

16 Mendes, R., "The rhizosphere microbiome : significance of plant beneficial, plant pathogenic, and human pathogenic microorganisms" 37 : 634-663, 2013

17 Raaijmakers, J. M., "The rhizosphere : a playground and battlefield for soilborne pathogens and beneficial microorganisms" 321 : 341-361, 2009

18 Zeigler, R. S., "The relevance of rice" 1 : 3-10, 2008

19 Salvador-Guirao, R., "The polycistronic miR166k-166h positively regulates rice immunity via post-transcriptional control of EIN2" 9 : 337-, 2018

20 Engel, P., "The gut microbiota of insects: diversity in structure and function" 37 : 699-735, 2013

21 Wang, Z. -L., "The gut bacterial flora associated with brown planthopper is affected by host rice varieties" 203 : 325-333, 2021

22 Yuan, C., "The biogeography of fungal communities in paddy soils is mainly driven by geographic distance" 18 : 1795-1805, 2018

23 Griffiths, R. I., "The bacterial biogeography of British soils" 13 : 1642-1654, 2011

24 Dai, Z., "The OsmiR396–OsGRF8–OsF3H-flavonoid pathway mediates resistance to the brown planthopper in rice(Oryza sativa)" 17 : 1657-1669, 2019

25 Sun, Z., "Temporal interactions of plantinsect-predator after infection of bacterial pathogen on rice plants" 6 : 26043-, 2016

26 Akami, M., "Symbiotic bacteria motivate the foraging decision and promote fecundity and survival of Bactrocera dorsalis(Diptera : Tephritidae)" 19 : 229-, 2019

27 De Costa, D. M., "Suppression of rice pathogens by phyllosphere associated microflora of different rice varieties in Sri Lanka" 46 : 97-104, 2006

28 Zhang, C., "Suppression of jasmonic acid-mediated defense by viral-inducible microRNA319 facilitates virus infection in rice" 9 : 1302-1314, 2016

29 Gordon, J., "Superorganisms and holobionts" 8 : 152-153, 2013

30 Lu, S., "Stress-responsive microRNAs in Populus" 55 : 131-151, 2008

31 Chaudhari, P. R., "Soil bulk density as related to soil texture, organic matter content and available total nutrients of coimbatore soil" 3 : 1-8, 2013

32 Lan, H., "Small interfering RNA pathway modulates persistent infection of a plant virus in its insect vector" 6 : 20699-, 2016

33 Yan, Y., "Small RNAs from MITE-derived stem-loop precursors regulate abscisic acid signaling and abiotic stress responses in rice" 65 : 820-828, 2011

34 Huang, C. -Y., "Small RNAs : big players in plant-microbe interactions" 26 : 173-182, 2019

35 Sattar, S., "Small RNA regulators of plant-hemipteran interactions : micromanagers with versatile roles" 7 : 1241-, 2016

36 Bing, X. -L., "Similarities and spatial variations of bacterial and fungal communities in field rice planthopper(Hemiptera : Delphacidae)populations" 27 : 947-963, 2020

37 Walker, T. S., "Root exudation and rhizosphere biology" 132 : 44-51, 2016

38 Yang, M., "Rice stripe virus-derived siRNAs play different regulatory roles in rice and in the insect vector Laodelphax striatellus" 18 : 219-, 2018

39 Qiao, L., "Rice siR109944 suppresses plant immunity to sheath blight and impacts multiple agronomic traits by affecting auxin homeostasis" 102 : 948-964, 2020

40 Wei, T., "Rice reoviruses in insect vectors" 54 : 99-120, 2016

41 Song, X., "Rice RNA-dependent RNA polymerase 6 acts in small RNA biogenesis and spikelet development" 71 : 378-389, 2012

42 Dale G. Bottrell ; Kenneth G. Schoenly, "Resurrecting the ghost of green revolutions past: The brown planthopper as a recurring threat to high-yielding rice production in tropical Asia" 한국응용곤충학회 15 (15): 122-140, 2012

43 Kettles, G. J., "Resistance of A rabidopsis thaliana to the green peach aphid, Myzus persicae, involves camalexin and is regulated by microRNAs" 198 : 1178-1190, 2013

44 Zhu, Q. -H., "Regulation of flowering time and floral patterning by miR172" 62 : 487-495, 2011

45 Baulcombe, D., "RNA silencing in plants" 431 : 356-363, 2004

46 Hardoim, P. R., "Properties of bacterial endophytes and their proposed role in plant growth" 16 : 463-471, 2008

47 Müller, T., "Progress in cultivation-independent phyllosphere microbiology" 87 : 2-17, 2014

48 Mannaa, M., "Plants under the attack of allies : moving towards the plant pathobiome paradigm" 10 : 125-, 2021

49 Lugtenberg, B., "Plant-growth-promoting rhizobacteria" 63 : 541-556, 2009

50 Zhang, Y. -C., "Overexpression of microRNA OsmiR397 improves rice yield by increasing grain size and promoting panicle branching" 31 : 848-852, 2013

51 Yu, C., "Overexpression of miR169o, an overlapping microRNA in response to both nitrogen limitation and bacterial infection, promotes nitrogen use efficiency and susceptibility to bacterial blight in rice" 59 : 1234-1247, 2018

52 Sun, W., "OsmiR530 acts downstream of OsPIL15 to regulate grain yield in rice" 226 : 823-837, 2020

53 Zhao, Z. -X., "Osa-miR167d facilitates infection of Magnaporthe oryzae in rice" 62 : 702-715, 2020

54 Wang, Z., "Osa-miR164a targets OsNAC60 and negatively regulates rice immunity against the blast fungus Magnaporthe oryzae" 95 : 584-597, 2018

55 Miura, K., "Os-SPL14 promotes panicle branching and higher grain productivity in rice" 42 : 545-549, 2010

56 Carthew, R. W., "Origins and mechanisms of miRNAs and siRNAs" 136 : 642-655, 2009

57 Berlec, A., "Novel techniques and findings in the study of plant microbiota : search for plant probiotics" 193-194, 2012

58 Franche, C., "Nitrogen-fixing bacteria associated with leguminous and non-leguminous plants" 321 : 35-59, 2009

59 Li, T. -P., "Newly introduced Cardinium endosymbiont reduces microbial diversity in the rice brown planthopper Nilaparvata lugens" 96 : fiaa194-, 2020

60 Van Ex, F., "Multiple roles for small RNAs during plant reproduction" 14 : 588-593, 2011

61 Ding, L. -J., "Microbiomes inhabiting rice roots and rhizosphere" 95 : fiz040-, 2019

62 Davis, T. S., "Microbial volatile emissions as insect semiochemicals" 39 : 840-859, 2013

63 Barr, K. L., "Microbial symbionts in insects influence downregulation of defense genes in maize" 5 : e11339-, 2010

64 Breidenbach, B., "Microbial community structure in the rhizosphere of rice plants" 6 : 1537-, 2016

65 Hussain, Q., "Microbial community dynamics and function associatedwith rhizosphere over periods of rice growth" 58 : 55-61, 2012

66 Xu, D., "MicroRNAs responding to southern rice black-streaked dwarf virus infection and their target genes associated with symptom development in rice" 190 : 60-68, 2014

67 Li, T., "MicroRNA and dsRNA targeting chitin synthase A reveal a great potential for pest management of the hemipteran insect Nilaparvata lugens" 73 : 1529-1537, 2017

68 Ye, X., "MiR-34 modulates wing polyphenism in planthopper" 15 : e1008235-, 2019

69 Knief, C., "Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice" 6 : 1378-1390, 2012

70 Xia, X., "Metagenomic sequencing of diamondback moth gut microbiome unveils key holobiont adaptations for herbivory" 8 : 663-, 2017

71 Zhang, X., "Magnaporthe oryzae induces the expression of a microRNA to suppress the immune response in rice" 177 : 352-368, 2018

72 Chen, M. -Y., "LncRNAs are potentially involved in the immune interaction between small brown planthopper and rice stripe virus" 18 : 2814-2822, 2019

73 Harsonowati, W., "Leaf blast disease reduction by rice-phyllosphere actinomycetes producing bioactive compounds" 83 : 98-108, 2017

74 Urayama, S., "Knock-down of OsDCL2 in rice negatively affects maintenance of the endogenous dsRNA virus, Oryza sativa endornavirus" 51 : 58-67, 2010

75 Jones, J. D. G., "Intracellular innate immune surveillance devices in plants and animals" 354 : aaf6395-, 2016

76 Yan, X. -T., "Insight into different host range of three planthoppers by transcriptomic and microbiomic analysis" 30 : 287-296, 2021

77 Pathak, M. D., "Insect pests of rice" International Rice Research Institute 89-, 1994

78 Lindow, S. E., "Influence of immigration on epiphytic bacterial populations on navel orange leaves" 62 : 2978-2987, 1996

79 Thapa, S., "Influence of fertilizers and rice cultivation methods on the abundance and diversity of phyllosphere microbiome" 58 : 172-186, 2018

80 Aljbory, Z., "Indirect plant defense against insect herbivores : a review" 25 : 2-23, 2018

81 Sunkar, R., "Identification of novel and candidate miRNAs in rice by high throughput sequencing" 8 : 25-, 2008

82 Guo, W., "Identification of novel Oryza sativa miRNAs in deep sequencing-based small RNA libraries of rice infected with Rice stripe virus" 7 : e46443-, 2012

83 Liu, L., "Identification of Wolbachia-responsive miRNAs in the small brown planthopper, Laodelphax striatellus" 10 : 928-, 2019

84 Chang, Z. -X., "Identification and characterization of microRNAs in the white-backed planthopper, Sogatella furcifera" 23 : 452-468, 2016

85 Zhou, G., "Identification and characterization of microRNAs in small brown planthopper(Laodephax striatellus)by nextgeneration sequencing" 9 : e103041-, 2014

86 Xu, L., "Identification and analysis of microRNAs associated with wing polyphenism in the brown planthopper, Nilaparvata lugens" 21 : 9754-, 2020

87 Wari, D., "Honeydew-associated microbes elicit defense responses against brown planthopper in rice" 70 : 1683-1696, 2019

88 Lee, H. J., "High resolution depth distribution of Bacteria, Archaea, methanotrophs, and methanogens in the bulk and rhizosphere soils of a flooded rice paddy" 6 : 639-, 2015

89 Liu, W., "High diversity and functional complementation of alimentary canal microbiota ensure small brown planthopper to adapt different biogeographic environments" 10 : 2953-, 2020

90 Vijayakumar M. Malathi ; Ravi P. More ; Rangasamy Anandham ; Gandhi R. Gracy ; Muthugounder Mohan ; Thiruvengadam Venkatesan ; Sandipan Samaddar ; Sushil K. Jalali ; 사동민, "Gut Bacterial Diversity of Insecticide-Susceptible and -Resistant Nymphs of the Brown Planthopper Nilaparvata lugens Stål (Hemiptera: Delphacidae) and Elucidation of Their Putative Functional Roles" 한국미생물·생명공학회 28 (28): 976-986, 2018

91 Chen, J., "Genome-wide screening and functional analysis reveal that the specific microRNA nlu-miR-173 regulates molting by targeting Ftz-F1 in Nilaparvata lugens" 9 : 1854-, 2018

92 Xie, J., "Genome-wide identification and analysis of Nilaparvata lugens microRNAs during challenge with the entomopathogenic fungus Metarhizium anisopliae" 7 : 295-, 2021

93 Chen, C. -J., "Genome-wide discovery and analysis of microRNAs and other small RNAs from rice embryogenic callus" 8 : 538-547, 2011

94 Wang, J., "Genetic basis of sRNA quantitative variation analyzed using an experimental population derived from an elite rice hybrid" 4 : e03913-, 2015

95 Xie, Z., "Genetic and functional diversification of small RNA pathways in plants" 2 : e104-, 2004

96 Arnold, A. E., "Fungal endophytes limit pathogen damage in a tropical tree" 100 : 15649-15654, 2003

97 Yunhua Zhang ; Tao Tang ; Wenhao Li ; Tingwei Cai ; Jian Hong Li ; Hu Wan, "Functional profiling of the gut microbiomes in two different populations of the brown planthopper, Nilaparvata lugens" 한국응용곤충학회 21 (21): 1309-1314, 2018

98 Hudzik, C., "Exchange of small regulatory RNAs between plants and their pests" 182 : 51-62, 2020

99 Brader, G., "Ecology and genomic insights into plant-pathogenic and plant-nonpathogenic endophytes" 55 : 61-83, 2017

100 Wang, Z. -L., "Diversity and dynamics of microbial communities in brown planthopper at different developmental stages revealed by high-throughput amplicon sequencing" 27 : 883-894, 2020

101 Peng, T., "Differential expression of the microRNAs in superior and inferior spikelets in rice(Oryza sativa)" 62 : 4943-4954, 2011

102 Nevita, T., "Differences in rice rhizosphere bacterial community structure by application of lignocellulolytic plant-probiotic bacteria with rapid composting traits" 120 : 209-221, 2018

103 Ursell, L. K., "Defining the human microbiome" 70 (70): S38-S44, 2012

104 Wei, L. Q., "Deep sequencing on genome-wide scale reveals the unique composition and expression patterns of microRNAs in developing pollen of Oryza sativa" 12 : R53-, 2011

105 Shah, A. Z., "Decoyinine induced resistance in rice against small brown planthopper Laodelphax striatellus" 13 : 104-, 2022

106 Wu, L., "DNA methylation mediated by a microRNA pathway" 38 : 465-475, 2010

107 Rincon-Florez, V. A., "Culture-independent molecular tools for soil and rhizosphere microbiology" 5 : 581-612, 2013

108 Jiang, Y., "Crop rotations alter bacterial and fungal diversity in paddy soils across East Asia" 95 : 250-261, 2016

109 Feng, Q., "Contribution of small RNA pathway to interactions of rice with pathogens and insect pests" 14 : 15-, 2021

110 Ren, G. -D., "Contrasting response patterns of rice phyllosphere bacterial taxa to elevated CO2" 24 : 544-552, 2014

111 Chen, J., "Conserved microRNAs miR-8-5p and miR-2a-3p modulate chitin biosynthesis in response to 20-hydroxyecdysone signaling in the brown planthopper, Nilaparvata lugens" 43 : 839-848, 2013

112 Zhang, W., "Comparative transcriptomic analysis of immune responses of the migratory locust, Locusta migratoria, to challenge by the fungal insect pathogen, Metarhizium acridum" 16 : 867-, 2015

113 Zhang, J. -H., "Community structure, dispersal ability and functional profiling of microbiome existing in fat body and ovary of the brown planthopper, Nilaparvata lugens" 26 : 683-694, 2019

114 Jiang, L., "Combined addition of chemical and organic amendments enhances plant resistance to aboveground herbivores through increasing microbial abundance and diversity" 56 : 1007-1022, 2020

115 Axtell, M. J., "Classification and comparison of small RNAs from plants" 64 : 137-159, 2013

116 Li, F., "Characterization of a bacterial symbiont Asaia sp. in the white-backed planthopper, Sogatella furcifera, and its effects on host fitness" 10 : 2179-, 2019

117 Chen, Q., "Characterization and comparative analysis of small RNAs in three small RNA libraries of the brown planthopper(Nilaparvata lugens)" 7 : e32860-, 2012

118 Chang, Z. -X., "Characterization and comparative analysis of microRNAs in the rice pest Sogatella furcifera" 13 : e0204517-, 2018

119 Wari, D., "Brown planthopper honeydew-associated symbiotic microbes elicit momilactones in rice" 14 : 1655335-, 2019

120 Sazama, E. J., "Bacterial endosymbionts are common among, but not necessarily within, insect species" 48 : 127-133, 2019

121 Xu, H. -X., "Bacterial community in different populations of rice brown planthopper nilaparvata lugens(Stål)" 21 : 59-64, 2014

122 Harun-Or-Rashid, M., "Bacillus velezensis YC7010 enhances plant defenses against brown planthopper through transcriptomic and metabolic changes in rice" 9 : 1904-, 2018

123 Zhang, X., "Arabidopsis Argonaute 2 regulates innate immunity via miRNA393*-mediated silencing of a Golgi-localized SNARE gene, MEMB12" 42 : 356-366, 2011

124 Tang, T., "Antibiotics increased host insecticide susceptibility via collapsed bacterial symbionts reducing detoxification metabolism in the brown planthopper, Nilaparvata lugens" 94 : 757-767, 2021

125 Zhang, X., "Antibiotic exposure perturbs the bacterial community in the small brown planthopper Laodelphax striatellus" 27 : 895-907, 2020

126 Golden, D. E., "An inside job for siRNAs" 31 : 309-312, 2008

127 Tong, A., "Altered accumulation of osa-miR171b contributes to rice stripe virus infection by regulating disease symptoms" 68 : 4357-4367, 2017

128 Carvalho, F. P., "Agriculture, pesticides, food security and food safety" 9 : 685-692, 2006

129 Baltrus, D. A., "Adaptation, specialization, and coevolution within phytobiomes" 38 : 109-116, 2017

130 Navarro, L., "A plant miRNA contributes to antibacterial resistance by repressing auxin signaling" 312 : 436-439, 2006

131 Tan, J., "A combined microRNA and transcriptome analyses illuminates the resistance response of rice against brown planthopper" 21 : 144-, 2020