[1]张秀实.中国植物志(第32卷第1分册)[M].北京:科学出版社,1998.[2]吴征镒,路安民,汤彦承,等.中国被子植物科属综论[M].北京:科学出版社,2003.[3]路丹桂,邱丽氚,常虹,等.中国桑科植物属的空间分布及多样性[J].西北植物学报,2019,39(6):1127-1134.[4]中国科学院中国植物志编辑委员会.中国植物志(第23卷第1分册)[M].北京:科学出版社,1998.[5]BOCK R.Genetic engineering of the chloroplast:Novel tools and new applications[J].Current Opinion in Biotechnology,2014,26:7-13.[6]PETER C,PERER G F,MARTIN T E,et al.Analyses of charophyte chloroplast genomes helpcharacterize the ancestral chloroplast genome of land plants[J].Genome Biol.Evol,2014,(4):897-911.[7]RAVI V,KHURNANA J P,TYAGI A K,et al.The chloroplast genome of mulberry:Complete nucleotide sequence,gene organization and comparative analysis[J].Tree Genet Genomes,2006(3):49-59.[8]RAVI V,TYAG AK,KHURNANA JP,et al.Rosales sister to Fabales:Towards resolving the rosid puzzle[J].Molecular Phylogenetics and Evolution,2007,44:488-493.[9]KIM T H,JUNG J,KIM J H.Comparative analysis of the complete genomes of three Ficus L.(Moraceae) species and its implication[J].The Plant Resources Society of Korea,2019,29:41-61.[10]AVSAR B,ALIABADI D E.A comparison study of chloroplast genomes:Ficus species versus its close relatives[J].Journal of Molecular Biology and Biotechnology,2018,2(2):28-31.[11]LIU J,NIU F Y,NI S B,et al.The complete chloroplast genome of Artocarpus heterophyllus (Moraceae)[J].Mitochondrial DNA Part B,2018,3(1):13-14.[12]LI Y R,SONG Y.The chloroplast genome of an endangeredtree Artocarpus nanchuanensis (Moraceae)[J].Mitochondrial DNA Part B,2019,4(1):893-894.[13]LUO J,WANG Y Y,ZHAO Z J A.The completechloroplast genome of Morusalba (Moraceae:Morus),the herbal medicine species in China[J].Mitochondrial DNA Part B,2019,4(2):2467-2468.[14]LIU Y R,CHEN W N,LI F,et al.The complete chloroplast genome sequence of Ficus hirta (Moraceae)[J].Mitochondrial DNA Part B,2019,4(2):4041-4042.[15]WANG J Y,SHI D H,BAI Y,et al.High-throughput sequencing uncover Ficus tikoua Bur.chloroplast genome[J].Journal of Plant Biochemistry and Biotechnology,2020,12(3):66-75.[16]DONG W,LIU H,XU C,et al.A chloroplast genomic strategy fordesigning taxon specific DNA mini-barcodes:A case study onginsengs[J].BMC Genetics,2014(15):138.[17]JO Y D,PARK J,KIM J,et al.Complete sequencingand comparative analyses of the pepper (Capsicum annuum L.) plastome revealedhigh frequency of tandem repeats and large insertion/deletions on pepper plastome[J].Plant Cell Reports,2011,30:217-229.[18]KONG W Q,YANG J H.The complete chloroplast genome sequence of Morus cathayana and Morus multicaulis,and comparative analysis within genus Morus L.[J].Peer Journal,2017(5):30-37.[19]YANG Y,YUAN D,QING L,et al.Complete chloroplastgenome sequence of poisonous and medicinal plant datura stramonium:Orga-nizations and implications for genetic engineering[J].PLoS One,2014,9(11):e110656.[20]SHAW J,LICKEY E B,SCHILLIMG E E,et al.Comparison of whole chloroplast genome sequences to choose noncoding regions for phylogenetic studies in angiosperms:The tortoise and the hare III[J].American Journal of Botany,2007,94:275-288.[21]WORBERG A,QUANDT D,BAMISKE A M,et al.Phylogeny of basal eudicots:Insights from non-coding and rapidly evolving DNA[J].Organisms Diversity & Evolution,2007(7):55-77.[22]SABLOK G,NAYAK K C,VAZQUEZ F,et al.Synonymous codon usage,GC3,and evolutionary patterns across plastomes of three pooid model species:Emerging grass genome models for monocots[J].Molecular Biotechnology,2011,49:116-128.[23]OLEJNICZAK S A,OJEWSKA E,KOWZLCZYK T,et al.Chloroplasts:State of research and practical applications of plastome sequencing[J].Planta,2016,244(3):517-27.[24]BRUUN-LUND S,CLEMENT W L,KJELLBERG F,et al.First plastid phylogenomic study reveals potential cyto-nuclear discordance in the evolutionary history of Ficus L.(Moraceae)[J].Mol Phylogenet Evol,2017,109:93-104.[25]WON H.Test of the hybrid origin of Broussonetia×kazinoki (Moraceae) in Korea using molecular markers[J].Korean Journal of Plant Taxonomists,2019,49(4):282-293.[26]RAVI V,TYAGI A K,KHURNANA J P,et al.An update on chloroplast genomes[J].Plant Systematics and Evolution,2008,271:101-122.[27]张剑锋,李阳,金静静,等.烟草叶绿体基因工程研究进展[J].烟草科技,2017,50(6):88-98.[28]SHARMA S,MEHRA R,BAS F.Molecular phylogeography of Ficus benghalensis Linnaeus using nrDNA ITS 1,cpDNA trnL and cpDNA rps16 from the Indian subcontinent[J].Current Science,2019,117(2):293-298.[29]李双双,张迎新,范成明,等.单倍型分析技术研究进展[J].生物工程学报,2018,34(6):852-861.[30]KAUPPI L,BARCHI M,LANGE J,et al Numerical constraints and feedback control of double-strand breaks in mouse meiosis[J].Genes & Development,2013,27(8):873-886.[31]ZHANG L F,ZANG Z,WANG X M,et al.Molecular phylogeny of the Ficus auriculata complex (Moraceae)[J].Phytotaxa,2019,362(1):39-54.[32]KHURANA P,CHECKER V G.The advent of genomics in mulberry and perspectives for productivity enhancement[J].Plant Cell Rep,2011,30:825-838.[33]TOEWS D P L,BRELSFORD A.The biogeography of mitochon-drial and nuclear discordance in animals[J].Molecular Ecology,2012(21):3907-3930.[34]BOWHM C,BOCL R.Recent advances and current challenges in synthetic biology of the plastid genetic system and metabolism[J].Plant Physiology,2019,179:794-802.[35]DAUVILLEE D,HILBIG L,PREISS S,et al.Minimal extent of sequence homology required for homologous recombination at the psbA locus in Chlamydomonas reinhardtii chloroplasts using PCR-generated DNA fragments[J].Photosynthesis Research,2004,79:219-224.[36]ROGALKI M,RUF S,BOCL R.Tobacco plastid ribosomal protein S18 is essential for cell survival[J].Nucleic Acids Res,2006,34:4537-4545.[37]BROPHY J A N,VOIGT C A.Principles of genetic circuit design[J].Nature Methods,2014(11):508-520.[38]SHI C,WANG S,XIA E H,et al.Full transcription of the chloroplast genome in photosynthetic eukaryotes[J].Scientific Reports,2016(6):30-35.[39]VENAYK N,ANESIADIS N,CLUNTT W R,et al.Engineering metabolism through dynamic control[J].Current Opinion in Biotechnology,2015,34:142-152.[40]VERHOUNIG A,KARCHER D,BOCK R.Inducible gene expression from the plastid genome by a synthetic riboswitch[J].Proceedings of the National Academy of Sciences of the United States of America,2010,107:6204-6209.[41]GLOAGUEN P,BOUMAIS S,ALBANL C,et al.ChloroKB:A web application for the integration of knowledge related to chloroplast metabolic network[J].Plant Physiology,2017,174:922-934.[42]GREINER S,BOCK R.Tuning a ménage à trois:Co-evolution and co-adaptation of nuclear and organellar genomes in plants[J].Bio Essays,2013,35:354-365[43]BALLARD J W O,MELVIN R G.Linking the mitochondrial genotype to the organismal phenotype[J].Molecular Ecology,2010(19):1523-1539.[44]LLOPART A,HERRIG D,BRUND E,et al.Sequentialadaptive introgression of the mitochondrial genome in Drosophilayakuba and Drosophila santomea[J].Molecular Ecology,2014(23):1124-1236.[45]TOEWS D P L,MANDIC M,RICHARDS J G,et al.Migra-tion,mitochondria and the yellow-rumped warbler[J].Evolution,2013,68:241-255.[46]IRWIN D E.Local adaptation along smooth ecological gradients causes phylogeographic breaks and phenotypic clus-tering[J].The American Naturalist,2012,180:35-49.[47]FUENTES I,STEGEMAN S,GOLCZYK H,et al.Horizontal genome transfer as an asexual path to the formation of new species[J].Nature,2014,511:232-235.[48]BOCL D G,ANDREW R L,RIESEBERG L H.On the adaptive value of cytoplasmic genomes in plants[J].Molecular Ecology,2014,23(20):4899-4911.[49]USAI G,MASCAGNI F,GIORDANI T,et al.Epigenetic patterns within the haplotype phased fig (Ficus carica L.) genome[J].Plant Journal,2020,102(3):234-250.