汪小全,男,博士,研究員,博士生導(dǎo)師。中國科學(xué)院植物研究所研究員、博士生導(dǎo)師、系統(tǒng)與進(jìn)化植物學(xué)研究中心主任和系統(tǒng)與進(jìn)化植物學(xué)國家重點實驗室常務(wù)副主任,中國科學(xué)院植物研究所學(xué)術(shù)委員會副主任、學(xué)位委員會委員,中國植物學(xué)會植物分類與系統(tǒng)進(jìn)化專業(yè)委員會主任、Molecular Phylogenetics and Evolution、Journal of Integrative Plant Biology和《植物分類學(xué)報》編委。其主要研究方向是植物分子系統(tǒng)學(xué)、分子進(jìn)化及生物地理學(xué)。
人物經(jīng)歷
教育履歷
1989年畢業(yè)于安徽師范大學(xué)
1992和1997年在中國科學(xué)院植物研究所分別獲得碩士和博士學(xué)位
工作履歷
1989.9 -1992.7 中科院中國科學(xué)院植物研究所系統(tǒng)與進(jìn)化植物學(xué)開放研究實驗室,主要從事毛科升麻(原變種)族植物的系統(tǒng)學(xué)研究
1992.7 -1998.7 中科院植物所系統(tǒng)與進(jìn)化植物學(xué)開放研究實驗室,主要從事植物分子系統(tǒng)學(xué)及遺傳多樣性研究
1998.7 -1999.5 密執(zhí)安州立大學(xué)(Michigan State University)合作開展松科植物及原始被子植物門的分子系統(tǒng)學(xué)研究
1999.5 -至今 中科院植物所系統(tǒng)與進(jìn)化植物學(xué)開放研究實驗室,裸子植物及原始被子植物的分子系統(tǒng)學(xué)及分子進(jìn)化研究
2006.12 -2011.7 汪小全任中國科學(xué)院植物研究所系統(tǒng)與進(jìn)化植物學(xué)國家重點實驗室常務(wù)副主任
任免信息
2003年7月起,汪小全擔(dān)任中國科學(xué)院植物研究所研究員
2015年9月,任植物研究所副所長職務(wù)
教育科研
主要從事植物分子系統(tǒng)學(xué)與分子進(jìn)化、分子生物地理學(xué)和分子生態(tài)學(xué)研究。近年來利用三個基因組的代表基因的序列分析重建了松科植物的系統(tǒng)發(fā)育,并在松柏類植物的分子進(jìn)化、物種形成、系統(tǒng)發(fā)育與生物地理學(xué)及青藏高原的物種分化和譜系生物地理學(xué)等研究方面取得了重要成果。已培養(yǎng)博士10名,其中兩位獲中國科學(xué)院院長獎優(yōu)秀獎,多位獲中科院地奧獎學(xué)金一等獎等。現(xiàn)主持國家自然科學(xué)基金重點項目、國家重點基礎(chǔ)研究發(fā)展規(guī)劃“973”項目二級課題、中科院知識創(chuàng)新工程重要方向性項目等。
科研項目
1) 國家自然科學(xué)基金"八五" 重大項目“中國主要瀕危植物的保護(hù)生物學(xué)研究”(No.39391500,1993-1997),主要完成人之一。
2) 國家自然科學(xué)基金"九五"重點項目“原始被子植物門的結(jié)構(gòu)、分化和演化”(No.39630030,1997-2000),主持子課題“原始被子植物的分子系統(tǒng)學(xué)研究”。
3) 國家自然科學(xué)青年基金“毛茛科升麻族植物的分子系統(tǒng)發(fā)育”(No.39800010,1999-2001),主持人。
4) 國家重點基礎(chǔ)研究發(fā)展規(guī)劃(973)項目“長江流域生物多樣性變化、可持續(xù)利用與區(qū)域生態(tài)安全”,主持第四課題“物種分化與物種多樣樣” (No.G2000046804,,2000.4-2005.3)。
5) 中國科學(xué)院“十·五”重要方向項目“若干重要植物類群的系統(tǒng)發(fā)育重建和分子進(jìn)化”(No.kscxz-sw-101A,2001-2004),主持子課題“松柏類植物的物種形成與分子進(jìn)化”。
6) 中國科學(xué)院全國優(yōu)秀博士學(xué)位論文作者專項資金“松柏類植物的系統(tǒng)發(fā)育及分子進(jìn)化研究”(2001-2005),主持人。
7) 國家中華人民共和國國家自然科學(xué)基金委員會創(chuàng)新研究群體科學(xué)基金“植物進(jìn)化機(jī)制的進(jìn)化發(fā)育生物學(xué)研究”(No.30121003,2002.1-2004.12;2005.1-2007.12),主持子課題“馬先蒿屬的進(jìn)化生物學(xué)研究。
8) 主持國家杰出青年科學(xué)基金“松柏類植物核基因的進(jìn)化與分子生物地理學(xué)”
(No.30425028;2005.1-2008.12)。
9) 中國科學(xué)院知識創(chuàng)新工程重要方向項目“青藏高原代表性植物類群的演變與分子生態(tài)學(xué)研究”(kzcx2-yw-415, 2007.1-2009.12), 主持人。
10) 國家自然科學(xué)基金重點項目“青藏高原代表性植物類群的起源與物種分化” (30730010, 2008.01-2011.12), 主持人。
11) 國家重點基礎(chǔ)研究發(fā)展規(guī)劃(973)項目“中國-喜馬拉雅山脈地區(qū)生物多樣性演變和保護(hù)研究”,主持第二課題“適應(yīng)輻射與物種形成” (2007CB411602, 2007.7-2011.12)。
主要論文
1.Wei 鋯, Jiao D, Wehenkel CA, Wei X-X*, Wang X-Q*. Phylotranscriptomic and ecological analyses reveal the evolution and morphological adaptation of 冷杉屬 J. Integr. Plant Biol., 2024. 00: 1–19.
2.Feng Y-Y, Du H, Huang K-Y, Ran J-H*, Wang X-Q*. Reciprocal expression of MADS-box genes and 脫氧核糖核酸 methylation reconfiguration initiate bisexual cones in spruce. Commun. Biol., 2024. 7: 114.
3.Yu Q, Yang F-S, Chen Y-X, Wu H, Ickert-Bond SM*, Wang X-Q*. Diploid 物種 phylogeny and evolutionary reticulation indicate early radiation of Ephedra in the Tethys coast. J. Integr. Plant Biol., 2023. 65: 2619–2630.
4.Sun J-J, Xia X-M, Wei X-X*, Wang X-Q*. Tracing the geographic Origin of endangered plant 物種 using transcriptome-derived SNPs: An example of Cathaya argyrophylla. 摩爾 Ecol. Resour., 2023. 23, 844–854.
5.Xia X-M, Yang M-Q, Li C-L, Huang S-X, Jin W-T, Shen T-T, Wang F, Li X-H, Yoichi W, Zhang L-H, Zheng Y-R, Wang XQ*. Spatiotemporal evolution of the global 物種 diversity of 杜鵑花屬 摩爾 Biol. Evol., 2022. msab314.
6.Liu X-Q, Xia X-M, Chen L, Wang X-Q*. Phylogeny and evolution of Cupressaceae: Updates on intergeneric relationships and new insights on ancient intergeneric hybridization. 摩爾 Phylogenet. Evol., 2022. 177: 107606.
7.Liu Y-Y, Jin W-T, Wei X-X*, Wang X-Q. Phylotranscriptomics reveals the evolutionary history of subtropical East Asian white pines: further insights into gymnosperm diversification. 摩爾 Phylogenet. Evol., 2022. 168: 107403.
8.Liu Y, Wang S, Li L, Yang T, Dong S, Wei T, Wu S, Liu Y, Gong Y, Feng X, Ma J, Chang G, Huang J, Yang Y, Wang H, Liu M, Xu Y, Liang H, Yu J, Cai Y, Zhang Z, Fan Y, Mu W, Sahu SK, Liu S, Lang X, Yang L, Li N, Habib S, Yang Y, Lindstrom AJ, Liang P, Goffinet B, Zaman S, Wegrzyn JL, Li D, Liu J, Cui J, Sonnenschein EC, Wang X, Ruan J, Xue J-Y, Shao Z-Q, Song C, Fan G, Liu Z, Zhang L, Liu J, Liu Z-J, Jiao Y, Wang X-Q, Wu H, Wang E, Lisby M, Yang H, Wang J, Liu X, Xu X, Li N, Soltis PS, Van de Peer Y*, Soltis DE*, Gong X*, Liu H* and Zhang S*. The Cycas genome and the early evolution of seed plants. Nat. Plants, 2022. 8: 389-401.
9.Xie D, Du H, Xu W-H, Ran J-H*, Wang X-Q. Effects of climate change on richness distribution patterns of threatened conifers endemic to China. Ecol. Indic., 2022. 136: 108594.
10.Huang K-Y, Kan sl, Shen T-T, Gong P, Feng Y-Y, Du H, Zhao Y-P, Wan T, Wang X-Q, Ran J-H*. A comprehensive evolutionary study of chloroplast 核糖核酸 editing in gymnosperms: A novel type of G-to-A RNA editing is common in gymnosperms. Int. J. 摩爾 Sci., 2022. 23: 10844.
11.Chen L, Jin W-T, Liu X-Q, Wang X-Q*. New insights into the phylogeny and evolution of Podocarpaceae inferred from transcriptomic 數(shù)據(jù). Mol. Phylogenet. Evol., 2022. 166: 107341.
12.Kan sl, Shen T-T, Ran J-H*, Wang X-Q*. Both Conifer II and Gnetales are characterized by a high 頻率 of ancient mitochondrial gene transfer to the nuclear genome. BMC Biol., 2021. 19:146.
13.Wan T, Liu Z-M, Leitch I-J, Xin H-P, Maggs-Kolling G, Gong Y-B, Li Z, Marais E, Liao Y-Y, Dai C, Liu F, Wu Q-J, Song C, Zhou Y-D, Huang W-C, Jiang K, Wang Q, Yang Y, Zhong Z-X, Yang M, Yan X, Hu G-W, Hou C, Su Y-J, Feng S-X, Yang J, Yan J-J, Chu J-F, Chen F, Ran J-H, Wang X-Q*, Van de Peer Y*, Leitch A-R* & Wang Q-F*. The Welwitschia genome reveals a unique biology underpinning extreme longevity in deserts. Nat. Commun., 2021. 12:4247.
14.Jin W-T, Gernandt D-S, Wehenkel C, Xia X-M, Wei X-X*, Wang X-Q*. Phylogenomic and ecological analyses reveal the spatiotemporal evolution of global pines. PNAS, 2021. 118, e2022302118.
15.Xie D, Liu XQ, Chen Y-X, Jiao D, Lou J-X, Qiu X-F, Xu W-H, Wang Z-H, Ran J-H*, Wang X-Q. Distribution and conservation of threatened gymnosperms in China. Glob. Ecol. Conserv., 2021. 32. e01915.
16.Feng Y-Y, Shen T-T, Shao C-C, Du H, Ran J-H*, Wang X-Q*. Phylotranscriptomics reveals the complex evolutionary and biogeographic history of the genus 鐵杉屬 with an East Asian-North American disjunct distribution. 摩爾 Phylogenet. Evol., 2021, 157: 107066.
17.Wu H, Yu Q, Ran J-H, Wang X-Q*. Unbiased subgenome evolution in allotetraploid 物種 of 麻黃屬 and its implications for the evolution of large genomes in gymnosperms. Genome Biol. Evol., 2021. 13.
18.Du H, Ran J-H, Feng Y-Y, Wang X-Q*. The flattened and needlelike leaves of the pine family (Pinaceae) share a conserved genetic network for adaxial-abaxial 極性 but have diverged for photosynthetic adaptation. BMC Evol. Biol., 2020. 20: 131.
19.Kan sl, Shen T-T, Gong P, Ran J-H*, Wang XQ The complete mitochondrial genome of Taxus cuspidata (Taxaceae): eight protein-coding genes have transferred to the nuclear genome. BMC Evol. Biol., 2020. 20: 1.
20.Shen T-T, Ran J-H*, Wang X-Q*. Phylogenomics disentangles the evolutionary history of spruces (Picea) in the Qinghai-Tibet Plateau: Implications for the 設(shè)計 of 種群 genetic studies and 物種 delimitation of conifers. 摩爾 Phylogenet. Evol., 2019. 141: 106612.
21.Shao C-C, Shen T-T, Jin W-T, Mao H-J, Ran J-H*, Wang X-Q*. Phylotranscriptomics resolves interspecific relationships and indicates multiple historical out-of-North America dispersals through the bering Land Bridge for the genus Picea (Pinaceae). 摩爾 Phylogenet. Evol., 2019. 141: 106610.
22.Liu Y-Y, Jin W-T, Wei X-X*, Wang X-Q*.Cryptic 物種形成 in the Chinese white pine (Pinus armandii): Implications for the high 物種 diversity of conifers in the Hengduan Mountains, a global biodiversity hotspot. Mol. Phylogenet. Evol., 2019. 138: 114-125.
23.Ran J-H*, Shen T-T, Wu H, Gong X, Wang X-Q*. Phylogeny and evolutionary history of Pinaceae updated by transcriptomic analysis. Mol. Phylogenet. Evol., 2018. 129:106-116.
24.Ran J-H, Shen T-T, Wang M-M, Wang X-Q*. Phylogenomics resolves the deep phylogeny of seed plants and indicates partial convergent or homoplastic evolution between Gnetales and 被子植物門 Proc. R. Soc. B., 2018. 285: 20181012.
25.Wang H-J, Li W-T, Liu Y-N, Yang F-S, Wang X-Q*. Resolving interspecific relationships within evolutionarily young lineages using 核糖核酸seq data: an example from 馬先蒿屬 section Cyathophora (Orobanchaceae). 摩爾 Phylogenet. Evol., 2017. 107: 345-355.
26.Liu Y-Y, Yang K-Z, Wei X-X*, Wang XQ Revisiting the phosphatidylethanolamine-binding protein (PEBP) gene family reveals cryptic FLOWERING LOCUS T gene homologs in gymnosperms and sheds new light on functional evolution. New Phytol., 2016. 212: 730-744.
27.Wu H, Ma Z, Wang M-M, Qin A-L, Ran J-H, Wang X-Q*. A high 頻率 of allopolyploid 物種形成 in the gymnospermous genus 麻黃屬 and its possible association with some biological and ecological features. 摩爾 Ecol., 2016. 25: 1192-1210.
28.Liu Y-N, Li Y, Yang F-S*, Wang XQ*. Floral nectary, nectar production 動力學(xué), and floral reproductive isolation among closely related 物種 of 馬先蒿屬 J. Integr. Plant Biol., 2016. 58: 178-187.
29.Ran J-H, Shen T-T, Liu W-J, Wang P-P, Wang X-Q*. Mitochondrial introgression and complex biogeographic history of the genus Picea. 摩爾 Phylogenet. Evol., 2015. 93: 63-76.
30.Wang H-J, Li W-T, Liu Y-N, Yang F-S*, Wang XQ*. Range-wide multilocus phylogenetic analyses of 馬先蒿屬 sect. Cyathophora (Orobanchaceae): Implications for 物種 delimitation and 物種形成 Taxon, 2015. 64: 959-974.
31.Guo Y-Y, Luo Y-B, Liu Z-J*, Wang X-Q*. Reticulate evolution and sea-levelfluctuations together drove species diversification of slipper orchids (Paphiopedilum) in South-East Asia. 摩爾 Ecol., 2015. 24: 2838-2855.
32.Hao Z-Z, Liu Y-Y, Nazaire M, Wei X-X*, Wang X-Q*. Molecular phylogenetics and evolutionary history of sect. Quinquefoliae (Pinus): implications for Northern Hemisphere 生物地理學(xué) 摩爾 Phylogenet. Evol., 2015. 87: 65-79.
33.Cun Y-Z, Wang X-Q*. Phylogeography and evolution of three closely related 物種 of 鐵杉屬 (hemlock) from subtropical eastern Asia: further insights into 物種形成 of conifers. J. Biogeogr., 2015. 42: 315-327.
34.Lu Y, Ran J-H, Guo D-M, Yang Z-Y, Wang X-Q*. Phylogeny and divergence times of gymnosperms inferred from single-copy nuclear genes. PLoS One, 2014. 9: e107679.
35.Wang X-Q*, Ran J-H. Evolution and 生物地理學(xué) of gymnosperms. 摩爾 Phylogenet. Evol., 2014. 75: 24-40.
36.Liu L, Hao Z-Z, Liu Y-Y, Wei X-X*, Cun Y-Z, Wang X-Q. Phylogeography of Pinus armandii and its relatives: Heterogeneous contributions of geography and climate changes to the genetic differentiation and diversification of Chinese white pines. PLoS One, 2014. 9: e85920.
37.Nazaire M, Wang X-Q, Hufford L. Geographic origins and patterns of radiation of Mertensia (紫草科). Amer. J. Bot., 2014. 101: 104-118.
38.Ran J-H*, Shen T-T, Liu W-J, Wang X-Q*. Evolution of the bHLH genes involved in stomatal development: Implications for the expansion of developmental complexity of stomata in land plants. PLoS One, 2013. 8: e78997.
39.Qin A-L, Wang M-M, Cun Y-Z, Yang F-S, Wang S-S, Ran J-H, Wang X-Q*. Phylogeographic evidence for a link of 物種 divergence of 麻黃屬 in the Qinghai-Tibet Plateau and adjacent regions to the Miocene Asian aridification. PLoS One, 2013. 8: e56243.
40.Gao H, Guo D-M, Ran J-H*, Wang XQ. Evolution of the 4-coumarate: coenzyme A ligase (4CL) gene family: Conserved evolutionary pattern and two new classes in gymnosperms. J. Syst. Evol., 2012. 50: 195-205.
41.Yang Z-Y, Ran J-H, Wang X-Q*. Three genome-based phylogeny of Cupressaceae s.l.: Further evidence for the evolution of gymnosperms and Southern Hemisphere 生物地理學(xué) 摩爾 Phylogenet. Evol., 2012. 64: 452-470.
42.Guo Y-Y, Luo Y-B, Liu Z-J, Wang X-Q*. Evolution and biogeography of the slipper orchids: Eocene vicariance of the conduplicate genera in the Old and New World tropics. PLoS One, 2012. 7: e38788.
43.Yang F-S*, Qin A-L, Li Y-F, Wang X-Q*. Great genetic differentiation among populations of Meconopsis integrifolia and its implication for plant speciation in the Qinghai-Tibet 高原 PLoS One, 2012. 7: e37196.
44.Zhang W, Wang X-Q, Li Z-Y*. The protective shell: sclereids and their mechanical 函數(shù) in corollas of some 物種 of Camellia (Theaceae). Plant Biol., 2011. 13: 688-692.
45.Ran J-H, Wang P-P, Zhao H-J, Wang XQ*. A test of seven candidate barcode regions from the plastome in Picea (Pinaceae). J. Integr. Plant Biol., 2010. 52: 1109-1126.
46.Guo D-M, Ran J-H, Wang X-Q*. Evolution of the cinnamyl/sinapyl 乙醇 dehydrogenase (CAD/SAD) gene family: the emergence of real lignin is associated with the origin of bona fide CAD. J. 摩爾 Evol., 2010. 71: 202-218.
47.Cun Y-Z, Wang X-Q*. Plant recolonization in the 喜馬拉雅山脈 from the southeastern Qinghai-Tibet Plateau: Geographical isolation contributed to high population differentiation. 摩爾 Phylogenet. Evol., 2010. 56: 972-982.
48.Wei X-X*, Yang Z-Y, Li Y, Wang XQ*. Molecular phylogeny and 生物地理學(xué) of 黃杉屬 (Pinaceae): Insights into the floristic relationship between Taiwan and its adjacent areas. 摩爾 Phylogenet. Evol., 2010. 55: 776-785.
49.Ran J-H, Gao H, Wang X-Q*. Fast evolution of the retroprocessed mitochondrial rps3 gene in Conifer II and further evidence for the phylogeny of gymnosperms. 摩爾 Phylogenet. Evol., 2010. 54: 136-149.
50.Wen J*, Xiang Q-Y, Qian H, Li J, Wang X-Q, Ickert-Bond S-M. Intercontinental and intracontinental 生物地理學(xué)—patterns and methods. J. Syst. Evol., 2009. 47: 327-330.
51.Yang F-S, Li Y-F, Ding X, Wang X-Q*. Extensive 種群 expansion of 馬先蒿屬 longiflora (Orobanchaceae) on the Qinghai-Tibet Plateau and its correlation with the Quaternary climate change. 摩爾 Ecol., 2008. 17: 5135-5145.
52.Peng D, Wang X-Q*. Reticulate evolution in Thuja inferred from multiple gene sequences: implications for the study of biogeographical disjunction between eastern Asia and North America. 摩爾 Phylogenet. Evol., 2008. 47: 1190-1202.
53.Hong D-Y*, Zhang D-M, Wang XQ, Koruklu S-T, Tzanoudakis D. Relationships and 鲾科 of 芍藥屬 arietina G. Anderson complex (Paeoniaceae) and its allies. Taxon, 2008. 57: 922-932.
54.Kan X-Z, Wang S-S, Ding X, Wang X-Q*. Structural evolution of nr脫氧核糖核酸 ITS in Pinaceae and its phylogenetic implications. 摩爾 Phylogenet. Evol., 2007. 44: 765-777.
55.Qiao C-Y, Ran J-H, Li Y, Wang XQ*. Phylogeny and 生物地理學(xué) of Cedrus (Pinaceae) inferred from sequences of seven paternal chloroplast and maternal mitochondrial DNA regions. Ann. Bot., 2007. 100: 573-580.
56.Hong D-Y, Wang X-Q, Zhang D-M, Koruklu S-T. Paeonia daurica Andrews or P. mascula 亞種 triternata (Pall. ex DC.) Stearn & P. H. Davis (芍藥屬ceae)? Bot. J. LINN Soc., 2007. 154: 1–11.
57.Yang F-S, Wang XQ*. Extensive length variation in the cp脫氧核糖核酸 trnT-trnF region of parasitic 馬先蒿屬 and its phylogenetic implications. Pl. Syst. Evol., 2007. 264: 251-264.
58.Ran J-H, Wei X-X, Wang X-Q*. Molecular phylogeny and 生物地理學(xué) of Picea (Pinaceae): implications for phylogeographical studies using cytoplasmic haplotypes. 摩爾 Phylogenet. Evol., 2006. 41: 405-419.
59.Hong D-Y *, Wang X-Q. The identity of Paeonia corsica SIEBER ex TAUSCH (芍藥屬ceae), with special reference to its relationship with P. mascula (L.) MILL. Feddes Repertorium, 2006. 117: 65-84.
60.Hong D-Y, Wang XQ, Zhang D-M, Koruklu S-T. On the circum-scription of Paeonia kesrouanensis, an east Mediterranean peony. Nord. J. Bot., 2005. 23: 395-400.
61.Wei X-X, Wang X-Q*. Recolonization and radiation in Larix (Pinaceae): evidence from nuclear ribosomal DNA paralogues. 摩爾 Ecol., 2004. 13: 3115-3123.
62.Wei X-X, Wang X-Q*. Evolution of 4-coumarate: coenzyme A ligase (4CL) gene and divergence of Larix (Pinaceae). Mol. Phylogenet. Evol., 2004. 31: 542-553.
63.Hong D-Y, Wang X-Q, Zhang 糖尿病 Paeonia saueri (Paeoniaceae), a new 物種 from the Balkans. Taxon, 2004. 53: 83-90.
64.Wei X-X, Wang XQ*. Phylogenetic split of Larix: evidence from paternally inherited cpDNA trnT-trnF region. Pl. Syst. Evol., 2003. 239: 67-77.
65.Wei X-X, Wang X-Q*, Hong D-Y. Marked intragenomic heterogeneity and geographical differentiation of nrDNA ITS in Larix potaninii (Pinaceae). J. Mol. Evol., 2003. 57: 623-635.
66.Yang F-S, Wang XQ*, Hong D-Y. Unexpected high divergence in nrDNA ITS and extensive parallelism in floral morphology of 馬先蒿屬 (Orobanchaceae). Pl. Syst. Evol., 2003. 240: 91-105.
67.Song B-H, Wang X-Q*, Wang X-R, Ding K-Y, Hong D-Y. Cytoplasmic composition in Pinus densata and 種群 establishment of the diploid hybrid pine. 摩爾 Ecol., 2003. 12: 2995-3001.
68.Liu Z-L, Zhang D, Wang XQ, Ma X-F, Wang X-R. Intragenomic and interspecific 5S rDNA sequence variation in five Asian pines. Amer. J. Bot., 2003. 90: 17-24.
69.Yang F-S, Hong D-Y, Wang X-Q. A new 物種 and a new specific synonym of 馬先蒿屬 (玄參科) from the Hengduan Mountains, China. Novon, 2003. 13: 363-367.
70.Song B-H, Wang X-Q*, Wang X-R, Sun L-J, Hong D-Y, Peng P-H. Maternal lineages of Pinus densata, a diploid hybrid. 摩爾 Ecol., 2002. 11: 1057-1063.
71.Song B-H, Wang X-Q*, Li F-Z, Hong D-Y. Further evidence for paraphyly of the Celtidaceae from the chloroplast gene matK. Pl. Syst. Evol., 2001. 22: 107-115.
72.Tank D-C, Wang XQ, Sang T. Recent transfers of cinnamyl alcohol dehydrogenase genes between conifers diverged 200 million years ago. Amer J. Bot., 2001. 88 (suppl.): 572.
73.汪小全. MADS-box基因的進(jìn)化與植物生殖器官形態(tài)建成. 見李承森主編,《植物科學(xué)進(jìn)展》, Vol 4, 2001, 北京,高教社,P3-14.
74.Wang XQ, Tank D-C, Sang T. Phylogeny and divergence times in Pinaceae: evidence from three genomes. 摩爾 Biol. Evol., 2000. 17: 773-781.
75.汪小全, 舒艷群. 紅豆杉科及三尖杉科的分子系統(tǒng)發(fā)育─兼論竹柏屬的系統(tǒng)位置. 植物分類學(xué)報,2000. 38:01-210.
76.汪小全. 松科分子系統(tǒng)學(xué)與分子進(jìn)化研究進(jìn)展. 見李承森主編,《植物科學(xué)進(jìn)展》, Vol 3, 2000, 北京,高教社,P81-89.
77.劉忠, 汪小全*, 陳之端, 林祁, 路安民. 五味子科的系統(tǒng)發(fā)育: 核糖DNA ITS區(qū)序列證據(jù). 植物學(xué)報, 2000. 42: 758-761.
78.馬小軍, 汪小全, 徐昭璽,肖培根,洪德元 人參不同栽培群體遺傳關(guān)系的RAPD分析. 植物學(xué)報,2000. 42: 587-590.
79.宋葆華,陳之端,汪小全,李法曾 中國莧屬nrDNA 的ITS序列分析及其系統(tǒng)學(xué)意義. 植物學(xué)報, 2000. 42: 1184-1189.
80.馬小軍, 汪小全,肖培根,洪德元. 野山參與栽培參rDNA內(nèi)錄間隔區(qū)(ITS)序列比較。 中國中藥雜志,2000. 25: 206-209.
81.馬小軍, 汪小全, 肖培根, 洪德元 國產(chǎn)人參種質(zhì)資源的研究進(jìn)展.中國藥學(xué)雜志, 2000. 35: 289-292.
82.Feng Y-X, Chen Z-D, Wang XQ, pan K-Y, Hong D-Y. A taxonomical revision of the Loropetalum-Tetrathyrium complex and its systematic position in Hamamelidoideae inferred from ITS sequences. Taxon, 1999. 48: 689-700.
83.馬小軍, 汪小全,孫三省,肖培根,洪德元 野生人參RAPD指紋的研究. 藥學(xué)學(xué)報, 1999. 34: 312-316.
84.馬小軍, 汪小全,蔡美琳,孫三省,肖培根. 野山參微量脫氧核糖核酸提取方法的研究. 中國中藥雜志, 1999. 24: 205-207.
85.Wang X-Q, Han Y, Hong D-Y. A molecular systematic study of Cathaya, a relic genus of the Pinaceae in China. Pl. Syst. Evol., 1998. 213: 165-172.
86.Wang X-Q, Han Y, Hong D-Y. PCR-RFLP analysis of the chloroplast gene trnK in the Pinaceae, with special reference to the systematic position of Cathaya. Is. J. Plant Sci., 1998. 46: 265-271.
87.Wang X-Q, Hong D-Y. Molecular phylogenetic, morphological, and biogeographic evidence for the origin of the genus Actaea within the genus Cimicifuga (Ranunculaceae). Am. J. Bot., 1998. 85 (suppl.): 476.
88.Chen Z-D, Wang X-Q, Sun H-Y, Han Y, Zou Y-P, Lu A-M. Systematic position of the Rhoipteleaceae: evidence from DNA sequences of rbcL gene. Acta Phytotax. Sin., 1998. 36: 1-7.
89.汪小全,李振宇 rDNA片段的序列分析在苦苣苔亞科系統(tǒng)學(xué)研究中的應(yīng)用. 植物分類學(xué)報, 1998. 36: 97-105.
90.汪小全, 鄧崢嶸, 洪德元 鐵破鑼屬的系統(tǒng)位置-ITS(nr脫氧核糖核酸)序列證據(jù). 植物分類學(xué)報, 1998. 36:: 403-410.
91.汪小全, 洪德元. 分子系統(tǒng)學(xué)研究進(jìn)展. 見李承森主編,《植物科學(xué)進(jìn)展》, 1998. Vol. 1, 北京,高教社,P16-30.
92.俸宇星, 汪小全, 潘開玉, 洪德元. rbcL基因序列分析對連香樹屬和交讓木科系統(tǒng)位置的重新評價--兼論低等金縷梅類的關(guān)系. 植物分類學(xué)報, 1998. 36: 411-422.
93.馬小軍, 汪小全, 鄒喻蘋,肖培根,洪德元 人參RAPD指紋鑒定的毛細(xì)管PCR方法. 中草藥, 1998. 29: 191-194.
94.馬小軍, 汪小全,肖培根. 人參RPAD產(chǎn)物的限制性內(nèi)切酶消化. 中草藥, 1998. 29: 625-627.
95.Wang X-Q, Zou Y-P, Zhang D-M, Hong D-Y, Liu Z-Y. Genetic diversity analysis by RAPD in Cathaya argyrophylla Chun et Kuang. Science In China (Series C), 1997. 40: 145-151.
96.汪小全, 韓英, 鄧崢嶸, 洪德元 松科系統(tǒng)發(fā)育的分子生物學(xué)證據(jù). 植物分類學(xué)報, 1997. 35: 97-106.
97.汪小全, 洪德元. 植物分子系統(tǒng)學(xué)近5年進(jìn)展概況. 植物分類學(xué)報, 1997. 35: 465-480.
98.汪小全, 鄒喻蘋, 張大明, 洪德元, 劉正宇. 銀杉遺傳多樣性的RAPD分析. 中國科學(xué)(C輯), 1996. 26: 436-441.
99.汪小全, 鄒喻蘋, 張大明, 張志憲, 洪德元. RAPD應(yīng)用于遺傳多樣性和系統(tǒng)學(xué)研究中的問題. 植物學(xué)報, 1996. 38: 954-962.
100.裴顏龍, 鄒喻蘋, 尹蓁, 汪小全, 張志憲, 洪德元 矮牡丹與紫斑牡丹RAPD分析初報. 植物分類學(xué)報, 1995. 33: 350-356.
101.Wang X-Q, Li Z-Y, Hong D-Y. A karyomorphological study of nine 物種 in four genera of Ranunculaceae. Cathaya, 1994. 6: 43-56.
102.鄒喻蘋, 汪小全, 雷一丁, 裴顏龍, 張志憲. 幾種瀕危植物及其近緣類群總DNA的提取與鑒定. 植物學(xué)報, 1994. 36: 528-533.
103.Wang X-Q, Hong D-Y, Li Z-Y. A study on pollen and seed-coat in the tribe Cimicifugeae and some allied genera (Ranunculaceae). Cathaya, 1993. 5: 131-149.
104.楊親二, 汪小全, 洪德元 國產(chǎn)7種烏頭屬植物的核型研究. 植物資源與環(huán)境, 1993. 2: 33-38.
105.張定成, 邵建章, 汪小全. 安徽南部貝母屬植物核型研究. 植物分類學(xué)報, 1992. 30: 62-68.
資料來源:
社會職務(wù)
《生物多樣性》主編
《生物多樣性》常務(wù)副主編
Journal of Integrative Plant Biology 編委
《Journal of Systematics and Evolution》編委、《中國中藥雜志》編委、中國科學(xué)院系統(tǒng)與進(jìn)化植物學(xué)重點實驗室副主任、中國科學(xué)院植物研究所學(xué)術(shù)委員會委員、東北林業(yè)大學(xué)森林植物生態(tài)學(xué)開放實驗室客座教授、山東師范大學(xué)客座教授、北京青少年科技俱樂部活動學(xué)術(shù)導(dǎo)師
主講課程
進(jìn)化生物學(xué)系列講座
參考資料:
個人獲獎情況
1996年獲首屆中國科學(xué)院地奧獎學(xué)金一等獎
1997年獲中國科學(xué)院院長獎學(xué)金特別獎
1999年獲首屆全國優(yōu)秀博士論文獎
2004年獲國家杰出青年科學(xué)基金
2005年入選中國科學(xué)院“百人計劃”
2006年被評為中國科學(xué)院大學(xué)優(yōu)秀教師
2009年入選“新世紀(jì)百千萬人才工程”國家級人選
參考資料 >
汪小全.中國科學(xué)院大學(xué).2024-11-20
汪小全.中國科學(xué)院系統(tǒng)與進(jìn)化植物學(xué)國家重點實驗室.2024-11-30