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Zheng Z, Chen J, Deng X. 2018. Historical perspectives, management and current research of citrus HLB in Guangdong Province of China, where the disease has been endemic for over a hundred years. Phytopathology 108:1224−36

Hu B, Rao MJ, Deng X, Pandey SS, Hendrich C, et al. 2021. Molecular signatures between citrus and Candidatus Liberibacter asiaticus. PLoS Pathogens 17:e1010071

Da Graça JV, Douhan GW, Halbert SE, Keremane ML, Lee RL, et al. 2016. Huanglongbing: An overview of a complex pathosystem ravaging the world's citrus. Journal of Integrative Plant Biology 58:373−87

Garnier M, Bové JM. 1983. Transmission of the organism associated with citrus greening disease from sweet orange to periwinkle by dodder. Phytopathology 73:1358−63

Hartung JS, Paul C, Achor D, Brlansky RH. 2010. Colonization of dodder, Cuscuta indecora, by 'Candidatus Liberibacter asiaticus' and 'Ca. L. americanus'. Phytopathology 100:756−62

Ding F, Duan Y, Paul C, Brlansky RH, Hartung JS. 2015. Localization and distribution of 'Candidatus Liberibacter asiaticus' in citrus and periwinkle by direct tissue blot immuno assay with an Anti-OmpA polyclonal antibody. PLoS One 10:e0123939

Tatineni S, Sagaram US, Gowda S, Robertson CJ, Dawson WO, et al. 2008. In planta distribution of 'Candidatus Liberibacter asiaticus' as revealed by polymerase chain reaction (PCR) and real-time PCR. Phytopathology 98:592−99

Hilf ME. 2011. Colonization of citrus seed coats by 'Candidatus Liberibacter asiaticus': implications for deed transmission of the bacterium. Phytopathology 101:1242−50

Fang F, Guo H, Zhao A, Li T, Liao H, et al. 2021. A significantly high abundance of 'Candidatus Liberibacter asiaticus' in citrus fruit pith: in planta transcriptome and anatomical analyses. Frontiers in Microbiology 12:681251

Bové JM. 2006. Huanglongbing: a destructive, newly-emerging, century-old disease of citrus. Journal of Plant Pathology 88:7−37

Hayat F, Iqbal S, Coulibaly D, Razzaq MK, Nawaz MA, et al. 2021. An insight into dwarfing mechanism: contribution of scion-rootstock interactions toward fruit crop improvement. Fruit Research 1:3

Ramsey JS, Chin EL, Chavez JD, Saha S, Mischuk D, et al. 2020. Longitudinal transcriptomic, proteomic, and metabolomic analysis of Citrus limon response to graft inoculation by Candidatus Liberibacter asiaticus. Journal of Proteome Research 19:2247−63

Stegemann S, and Bock R. 2009. Exchange of genetic material between cells in plant tissue grafts. Science 324:649−51

Albrecht U, Hall DG, Bowman KD. 2014. Transmission efficiency of Candidatus Liberibacter asiaticus and progression of Huanglongbing disease in graft and psyllid-inoculated citrus. HortScience 49:367−77

Cifuentes-Arenas JC, Beattie GAC, Peña L, Lopes SA. 2019. Murraya paniculata and Swinglea glutinosa as short-term transient hosts of "Candidatus Liberibacter asiaticus" and implications for the spread of Huanglongbing. Phytopathology 109:2064−73

Blue RL, Roistacher CN, Cartia G, Calavan EC. Leaf-disc grafting-a rapid indexing method for detection of some citrus viruses. International Organization of Citrus Virologists Conference Proceedings (1957-2010), 1976, 7:207-12. http://doi.org/10.5070/C56kw361xm

Hilf ME, Lewis RS. 2016. Transmission and propagation of 'Candidatus Liberibacter asiaticus' by grafting with individual citrus leaves. Phytopathology 106:452−58

Peng Z, Gong G, Hong Q. 2007. The grafting technology with young citrus shoots. South China Fruits 36:10−11

Wei J. 2015. Introduction to citrus grafting technology. South China Agricluture 9:70+72

Lopes SA, Bertolini E, Frare GF, Martins EC, Wulff NA, et al. 2009. Graft transmission efficiencies and multiplication of 'Candidatus Liberibacter americanus' and 'Ca. Liberibacter asiaticus' in citrus plants. Phytopathology 99:301−6

Zambon FT, Plant K, Etxeberria E. 2017. Leaf-disc grafting for the transmission of Candidatus Liberibacter asiaticus in citrus (Citrus sinensis; rutaceae) seedlings. Applications in Plant Sciences 5:apps.1600085

Lopes SA, Frare GF. 2008. Graft transmission and cultivar reaction of citrus to 'Candidatus Liberibacter americanus'. Plant Disease 92:21−24

Asahina M, Satoh S. 2015. Molecular and physiological mechanisms regulating tissue reunion in incised plant tissues. Journal of Plant Research 128:381−88

Zhang M, Powell CA, Guo Y, Doud MS, Duan Y. 2012. A graft-based chemotherapy method for screening effective molecules and rescuing Huanglongbing-affected citrus plants. Phytopathology 102:567−74

Orbovic V, Shankar A, Peeples ME, Hubbard C, Zale J. 2015. Citrus transformation using mature tissue explants. In Agrobacterium Protocols. Methods in Molecular Biology, ed. Wang K. vol 1224. New York: Springer, New York. pp. 259-73 https://doi.org/10.1007/978-1-4939-1658-0_21

Huang Y, Xu Y, Jiang X, Yu H, Jia H, et al. 2021. Genome of a citrus rootstock and global DNA demethylation caused by heterografting. Horticulture Research 8:69

Zhang M, Guo Y, Powell CA, Doud MS, Yang C, Duan Y. 2014. Effective antibiotics against 'Candidatus Liberibacter asiaticus' in HLB-affected citrus plants identified via the graft-based evaluation. PLoS One 9:e111032

Guo W. 2003. An efficient and simple technique to graft citrus in vitro shoots onto greenhouse rootstock seedlings. Journal of Fruit Science 20:242

Zou M, Song Z, Tang K, Dong P, Zhou C. 2005. Comparing of micro extraction methods of DNA from citrus Huanglongbing pathogen. Plant Quarantine 19:271−74

Liu F, Wang X, Chen D, Chen X, Liao H, et al. 2020. Nested-PCR detection and investigation for Candidatus Liberibacter asiaticus of Orah. Journal of Southern Agriculture 51:101−7

Chen Y, Tang R, Liu Y, Deng X, Xu M. 2018. Distribution and genetic diversity of 'Candidatus Liberibacter asiaticus' in citrus canopy shoots. Acta Phytopathologica Sinica 48:728−37

Johnson EG, Wu J, Bright DB, Graham JH. 2014. Association of "Candidatus Liberibacter asiaticus" root infection, but not phloem plugging with root loss on Huanglongbing-affected trees prior to appearance of foliar symptoms. Plant Pathology 63:290−98

Fischer G, Almanza-Merchanp PJ, Ramirez F. 2013. Source-sink relationships in fruit species: A review. Revista Colombiana de Ciencias Hortícolas 6:238−53

Braswell WE, Park JW, Stansly PA, Kostyk BC, Louzada ES, et al. 2020. Root samples provide early and improved detection of Candidatus Liberibacter asiaticus in Citrus. Scientific Reports 10:16982

Louzada ES, Vazquez OE, Braswell WE, Yanev G, Devanaboina M, et al. 2016. Distribution of 'Candidatus Liberibacter asiaticus' above and below ground in texas citrus. Phytopathology 106:702−9

Ibanez F, Stelinski LL. 2020. Temporal dynamics of Candidatus Liberibacter asiaticus titer in mature leaves from Citrus sinensis cv valencia are associated with vegetative growth. Journal of Economic Entomology 113:589−95

Zhao X, Jiang Y, Qiu Z, Su W, Li C. 1982. A technique of graft transmission of citrus yellwshoot disease (Huanglongbing). Acta Phytopathologica Sinica 12:55−58

Folimonova SY, Achor DS. 2010. Early events of citrus greening (Huanglongbing) disease development at the ultrastructural level. Phytopathology 100:949−58

Zhao T, Liu E. 2019. The factors affecting the survival of citrus grafting and the technoligy of grafting vehicles. Agricultural Technology Service 36:63−64

Wang Z, Ke C. 1985. Preliminary report on the multi-bud transmission test of citrus yellow shoot disease and the observation of disease symptoms. Fujian Agricrltural Science and Technology pp:7−10

Lin K. 1956. Observations on yellow shoot of citrus. Acta Phytopathologica Sinica 2:1−11

Bao M, Zheng Z, Sun X, Chen J, Deng X. 2020. Enhancing PCR capacity to detect "Candidatus Liberibacter asiaticus" utilizing whole genome sequence information. Plant Disease 104:527−32