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Chase, M. W. et al. An amend of the Angiosperm Phylogeny Accumulation allocation for the orders and families of beginning plants: APG IV. Bot. J. Linn. Soc. 181(1), 1–20 (2016).

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Schaffer, B., Wolstenholme, B. N. & Wiley, A. W. Introduction in The Avocado: Botany, Production, and Uses. (eds. Schaffer, B., Wolstenholme, B. N & Whiley, A. W.) 1–9 (CABI, Wallingford, UK, 2013).

FAO. Statistics Division of Food and Agriculture Organization of the United Nations (FAOSTAT) (Accessed September 13th 2019).

Crane, J. H. et al. Cultivars and rootstocks in The Avocado: Botany, Production, and Uses (eds. Schaffer, B., Wolstenholme, B. N & Whiley, A. W.) 1–9 (CABI, Wallingford, UK, 2013).

Lavi, U., Hillel, J. & Vainstein, A. Appliance of DNA fingerprints for identification and abiogenetic assay of avocado. J. Am. Soc. Hort. Sci. 116, 1078–1081 (1991).

Mhameed, S. et al. Level of heterozygosity and access of bequest of capricious cardinal of bike echo loci in avocado. J. Am. Soc. Hort. Sci. 121, 778–782 (1996).

Fiedler, J., Bufler, G. & Bangerth, F. Abiogenetic relationships of avocado (Persea americana Mill.) appliance RAPD markers. Euphytica 101, 249–255 (1998).

Furnier, G. R., Cummings, M. P. & Clegg, M. T. Evolution of the avocados as appear by DNA brake armpit variation. J. Hered. 81, 183–188 (1990).

Davis, J., Henderson, D., Kobayashi, M., Clegg, M. T. & Clegg, M. T. Affiliated relationships amid able avocado as appear through RFLP analysis. J. Hered. 89, 319–323 (1998).

Sharon, D. et al. An chip abiogenetic bond map of avocado. Theor. Appl. Genet. 95, 911–921 (1997).

Schnell, R. J. et al. Evaluation of avocado germplasm appliance microsatellite markers. J. Am. Soc. Hort. Sci. 128, 881–889 (2003).

Ashworth, V. E. T. M. & Clegg, M. T. Microsatellite markers in avocado (Persea americana Mill.): affiliated relationships amid able avocado genotypes. J. Hered. 94, 407–415 (2003).

Ashworth, V. E. T. M., Kobayashi, M. C., De La Cruz, M. & Clegg, M. T. Microsatellite markers in avocado (Persea americana Mill.): development of dinucleotide and trinucleotide markers. Sci. Hortic. 101, 255–267 (2004).

Borrone, W. J., Schnell, R. J., Viola, H. A. & Ploetz, R. C. Seventy microsatellite markers from Persea americana Miller (avocado) bidding sequences tags. Mol. Ecol. Notes 7, 439–444 (2007).

Alcaraz, M. L. & Hormaza, J. I. Molecular assuming and abiogenetic assortment in an avocado accumulating of cultivars and bounded Spanish genotypes appliance SSRs. Hereditas 144, 244–253 (2007).

Gross-German, E. & Viruel, M. A. Molecular assuming of avocado germplasm with a new set of SSR and EST-SSR markers: abiogenetic diversity, citizenry structure, and identification of race-specific markers in a accumulation of able genotypes. Timberline Genet. Genomes 9, 539–555 (2013).

Guzmán, L. F. et al. Abiogenetic anatomy and another of a amount accumulating for continued appellation attention of avocado in Mexico. Front. Plant. Sci. 8, 243, (2017).

Boza, J. E. et al. Abiogenetic differentiation, contest and interracial admixture in avocado (Persea americana Mill.), and Persea spp. evaluated appliance SSR markers. Genet. Resour. Crop. Ev. 65, 1195–1215 (2018).

Ge, Y. et al. Transcriptome sequencing of altered avocado ecotypes: de novo transcriptome assembly, annotation, identification and validation of EST-SSR Markers. Forests 10, 411, (2019).

Ching, A. et al. SNP frequency, haplotype anatomy and bond alternation in aristocratic maize affiliated lines. BMC Assay 3, 19, (2002).

Rasheed, A. et al. Crop ancestor chips and genotyping plataforms: progress, challenge, and perspectives. Mol. Bulb 10, 1047–1064 (2017).

Scheben, A., Batley, J. & Edwards, D. Genotyping-by-sequencing approaches to characterize crop genomes: allotment the appropriate apparatus for the appropriate application. Bulb Biotecnol. J. 15, 149–161 (2017).

Studer, B. & Kölliker, R. SNP Genotyping Technologies. In Diagnostics in Bulb Ancestor (eds. Lübberstedt, T. & Varshney, R. K.) (Springer Science   Business Media Dordrecht, 2013).

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Chagné, D. et al. Development of a set of SNP markers present in bidding genes of the apple. Genomics 92, 353–358 (2008).

Wang, B., Tan, H. W. & Fang, W. Developing distinct nucleotide polymorphism (SNP) markers from transcriptome sequences for identification of longan (Dimocarpus longan) germplasm. Hortic. Res. 2, 14065, (2015).

Ibarra-Laclette, E. et al. Abysmal sequencing of the Mexican avocado transcriptome, an age-old angiosperm with a aerial agreeable of blubbery acids. BMC Genomics 16, 599, (2015).

Vergara-Pulgar, C. et al. De novo accumulation of Persea americana cv. “Hass“ transcriptome during bake-apple development. BCM Genomics 20, 108, (2019).

Kuhn, D. N. et al. Appliance of genomic accoutrement to avocado (Persea americana) breeding: SNP assay for genotyping and germplasm characterization. Sci. Hortic. 246, 1–11 (2019).

Ge, Y. et al. Genome-wide appraisal of avocado germplasm bent from Specific Breadth Amplified Fragment sequencing and transcriptomes: citizenry structure, abiogenetic diversity, identification, and appliance of race-specific markers. Genes 10, 215, (2019).

Rubinstein, M. et al. Abiogenetic assortment of avocado (Persea americana Mill.) germplasm appliance affiliated sequencing. BMC Genomics 20, 379, (2019).

Rendón-Anaya, M. et al. The avocado genome informs abysmal angiosperm phylogeny, highlights introgressive hybridization, and reveals pathogen-influenced gene amplitude adaptation. PNAS 116, 17081–17089 (2019).

Wortman, J. R. et al. Comment of the Arabidopsis genome. Bulb Physiol. 132, 461–468 (2003).

Soorni, A., Fatahi, R., Salami, S. A., Haak, D. C. & Bombarely, A. Appraisal of abiogenetic assortment and citizenry anatomy in Iranian cannabis germplasm. Sci Rep. 7, 15668, (2017).

Shearman, J. R. et al. SNP identification from RNA sequencing and bond map architecture of elastic timberline for anchoring the abstract genome. PLoS. One 10, e0121961, (2015).

Pootakham, W. et al. Genome-wide SNP assay and identification of QTL associated with agronomic ancestor in oil access appliance genotyping-by-sequencing (GBS). Genomics 105, 288–295 (2015).

Prevosti, A., Ocaña, J. & Alonso, G. Distance amid populations of Drosophila subobscura based on chromosome adjustment frequencies. Theor. Appl. Genet. 45, 231–241 (1975).

Alexander, D. H., Novembre, J. & Lange, K. Fast model-based admiration of ancestor in different individuals. Genome Res. 19, 1655–1664 (2009).

Pritchard, J. K., Stephens, M. & Donnelly, P. Inference of citizenry anatomy appliance multilocus genotype data. Assay 155, 945–959 (2000).

Earl, D. A. & vonHoldt, B. M. STRUCTURE HARVESTER: a website and affairs for visualizing STRUCTURE achievement and implementing the Evanno method. Conserv. Genet. Resour. 4, 359–361 (2012).

Chen, H., Morrell, P. L., Ashworth, V. E. T. M. & Clegg, M. T. Tracing the geographic origins of above avocado cultivars. J. Hered. 100, 56–65 (2009).

Variety Database of the Univ. of California at Riverside, (Accessed September 13th 2019) (2019).

Lavi, U., Cregan, P. B. & Hillel, J. Appliance of DNA markers for identification and ancestor of bake-apple trees. Bulb Breed. Rev. 12, 195–226 (1994).

Chen, H., Morrell, P. L. & de la Cruz, M. Nucleotide assortment and bond alternation in agrarian avocado (Persea americana Mill.). J Hered. 99, 382–389 (2008).

Catchen, J. M., Amores, A., Hohenlohe, P., Cresko, W. & Postlethwait, J. H. Stacks: Building and genotyping loci de novo from short-read sequences. G3-Genes Genom. Genet. 1, 171–182 (2011).

Lu, F. et al. Switchgrass genomic diversity, ploidy, and evolution: atypical insights from a network-based SNP assay protocol. PLoS. Genet. 9, e1003215, (2013).

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Melo, A. T. O., Bartaula, R. & Hale, L. GBS-SNP-CROP: a reference-optional activity for SNP assay and bulb germplasm assuming appliance capricious length, paired-end genotyping-by-sequencing data. BMC Bioinformatics 17, 29, (2016).

Leggett, R. M. & MacLean, D. Reference-free SNP detection: ambidextrous with the abstracts deluge. BMC Genomics 15, S10, (2014).

Berthouly-Salazar, C. et al. Genotyping-by-Sequencing SNP identification for crops after a advertence genome: appliance transcriptome based mapping as an another strategy. Front. Plant. Sci. 7, 777, (2016).

Taranto, F., D´Agostino, N., Greco, B., Cardi, T. & Tripoli, P. Genome-wide SNP assay and citizenry anatomy assay in pepper (Capsicum annum) appliance genotyping by sequencing. BMC Genomics 17, 943, (2016).

Pootakham, W. et al. Architecture of high-density chip abiogenetic bond map of elastic timberline (Hevea brasiliensis) appliance genotyping-by-sequencing (GBS). Genomics 6, 367, (2015).

Kujur, A. et al. Employing genome-wide SNP assay and genotyping action to extrapolate the accustomed allelic assortment and conduct patterns in chickpea. Front. Plant. Sci. 6, 162, (2015).

Micheletti, D. et al. Whole-Genome Assay of assortment and SNP-major gene affiliation in acceptable germplasm. Plant. Genome 5, 92–102 (2015).

Helyar, S. J. et al. Appliance of SNPs for citizenry assay of nonmodel organisms: new opportunities and challenges. Mol. Ecol. Resour. 1, 123–36 (2011).

Aranzana, M. J., Illa, E., Howad, W. & Arús, P. A aboriginal acumen into acceptable [Prunus persica (L.) Batsch] SNP variability. Timberline Genet. Genomes 8, 1359–1369 (2012).

Biton, I. et al. Development of a ample set of SNP markers for assessing phylogenetic relationships amid the olive cultivars basic the Israel olive germplasm collection. Mol. Breed. 35, 107 (2015).

Liu, W. et al. Identifying litchi (Litchi chinensis Sonn.) cultivars and their abiogenetic relationships appliance distinct nucleotide polymorphism (SNP) markers. PLoS. One 10, e0135390, (2015).

Chanderbali, A. S., Soltis, D. E.,Soltis, P. S. & Wolstenholme, B. N. Taxonomy and botany in The Avocado: Botany, Production, and Uses. (eds. Schaffer, B., Wolstenholme, B. N & Whiley, A. W.) 32–50 (CABI, Wallingford, UK, 2013).

Söderquist, P. et al. Admixture amid appear and agrarian bold birds: a alteration abiogenetic mural in European mallards (Anas platyrhynchos). Eur. J. Wildl. Res. 63, 98, (2017).

Frosch, C. et al. The abiogenetic bequest of assorted aholic reintroductions in Central Europe. PLoS. One 9, e97619, (2014).

Sonah, H. et al. An bigger genotyping by sequencing (GBS) access alms added versatility and ability of SNP assay and genotyping. PLoS. One 8, e54603, (2013).

Herten, K., Hestand, M. S., Vermeesch, J. R. & Van Houdt, J. K. J. GBSX: a toolkit for beginning architecture and demultiplexing genotyping by sequencing experiments. BMC Bioinformatics 16, 73, (2015).

Aronesty, E. Comparison of sequencing account programs. Open Bioinforma. J. 7, 1–8, (2013).

Liu, B. et al. Admiration of genomic characteristics by allegory k-mer abundance in de novo genome projects. Preprint at, (2013).

Vurture, G. W. et al. GenomeScope: fast reference-free genome profiling from abbreviate reads. Bioinformatics 33, 2202–2204, (2017).

Chikhi, R. & Rizk, G. Space-efficient and exact de Bruijn blueprint representation based on a Bloom filter. Algorithm. Mol. Biol. 8, 22, (2013).

Luo, R. B. et al. SOAPdenovo2: an empirically bigger memory-efficient short-read de novo assembler. Gigascience 1, 18, (2012).

Boetzer, M., Henkel, C. V., Jansen, H. J., Butler, D. & Pirovano, W. Scaffolding pre-assembled contigs appliance SSPACE. Bioinformatics 27, 578–9 (2011).

sample completed w 9 form
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Li, H. & Durbin, R. Fast and authentic long-read alignment with Burrows-Wheeler transformation. Bioinformatics 26, 589–595 (2010).

Li, H. et al. The arrangement alignment/map architecture and SAMtools. Bioinformatics 25, 2078–2079 (2009).

Garrison E. & Marth G. Haplotype-based alternative apprehension from short-read sequencing. Preprint at, (2012).

Danecek, P. et al. The alternative alarm architecture and VCFtools. Bioinformatics 27, 2156–2158 (2011).

Jombart, T. Adegenet: a R amalgamation for the multivariate assay of abiogenetic markers. Bioinformatics 24, 1403–1405 (2008).

Paradis, E. Pegas: an R amalgamation for citizenry assay with an integrated–modular approach. Bioinformatics 26, 419–420 (2010).

Wickham, H. Ggplot2: Elegant Graphics for Abstracts Analysis. (Springer-Verlag New York, 2009).

R amount Team. R: a accent and ambiance for statistical computing. R foundation for statistical computing, Vienna; (Accessed September 13th 2019) (2018).

Kamvar, Z. N., Tabina, J. F. & Grünwald, N. J. Poppr: an R amalgamation for abiogenetic assay of populations with clonal, partially clonal, and/or animal reproduction. PeerJ Prepr. 2, e281, (2014).

Kamvar, Z. N., Brooks, J. C. & Grünwald, N. J. Atypical R accoutrement for assay of genome-wide citizenry abiogenetic abstracts with accent on clonality. Front. Genet. 6, 208, (2015).

Rambaut, A. FigTree adaptation 1.4.4, (Accessed September 13th 2019).

Larrañaga, N. et al. A Mesoamerican agent of cherimoya (Annona cherimola Mill.): Implications for attention of bulb abiogenetic resources. Mol. Ecol. 26, 4116–4130 (2017).

Martin, C., Herrero, M. & Hormaza, J. I. Molecular assuming of apricot germplasm from an old bean collection. PLoS. One 6, e23979, (2011).

Pritchard, J. K., Wen, X. & Falush, D. Documentation for anatomy software: adaptation 2.3. Preprint at, (Accessed September 13th 2019) (2010).

Evanno, G., Regnaut, S. & GOUDET, J. Detecting the cardinal of clusters of individuals appliance the software: STRUCTURE: a simulation study. Mol. Ecol. 14, 2611–2620 (2005).

Hahn, M. W. Citizenry anatomy in Molecular Citizenry Genetics. (eds Sinauer Associates) 81–83 (Oxford University Press. U.S.A., 2018).

Pfeifer, B., Wittelsbürger, U., Ramos-Onsins, S. E. & Lercher, M. J. PopGenome: an able Swiss army knife for citizenry genomic analyses in R. Mol. Biol. Evol. 31, 1929–36, (2014).

Hofshi, R. Avocado database, (Accessed September 13th 2019).

U.S. National Bulb Germplasm System, (Accessed September 13th 2019).

Avocado advice database, (Accessed September 13th 2019).

Wolfe, H. S., Toy, L. R. & Stahl, A. L. Avocado assembly in Florida. Fl. Agr. Ext. Serv. Bull. 141 (1949).

Ben-Ya’cov, A., Zilberstaine, M., Goren, M. & Tomer, E. The Israeli avocado germplasm bank: area and why the items had been collected. In Proc. V World Avocado Congress. Spain. October 19–24 (2003).

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