Prospection on some topics of forest genetic improvement through modern biotechnology for the next-ten-years in China

doi:10.3969/j.jssn.1000-2006.2012.05.001

JOURNAL OF NANJING FORESTRY UNIVERSITY ›› 2012, Vol. 36 ›› Issue (05): 1-13.doi: 10.3969/j.jssn.1000-2006.2012.05.001

Prospection on some topics of forest genetic improvement through modern biotechnology for the next-ten-years in China

SHI Jisen

Key Laboratory of Forest Genetics and Biotechnology Ministry of Education, Nanjing Forestry University， Nanjing 210037， China

Online:2012-09-30 Published:2012-09-30

Abstract

Abstract: The strategies for forest genetic improvement will be greatly impacted by the new nextgeneration genomic sequencing and the genetic consequences of manmade changes on genetic composition of forest populations， in the new ears of postgenomics. And here， we discussed on some topics for tree genomics， wood production and quantities genetic improvement， research on tree stem cell biology and molecular breeding， new aims and technologies of genetic transformation， breeding for ideal tree form structure and geneticenvironmental interaction management. And I highlighted that the manmade negative impacts on genetic composition of forest population should not be neglected， and the pilot genome sequencing program should be setup on native coniferous species in China.

CLC Number:

S722

SHI Jisen. Prospection on some topics of forest genetic improvement through modern biotechnology for the next-ten-years in China[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY, 2012, 36(05): 1-13.

References

[1]施季森.迎接21世纪现代林木生物技术育种的挑战［J］. 南京林业大学学报，2000，24（1）：1-6.
[2］Jain H K. Hundred years of Genetics： Revisiting some of the Landmarks［C］／／Jian H K， Kharkwal M C.Plant BreedingMendelian to Molecular Approches. New Delhi：Narosa Publishing House， 2004.
[3］Fisher R A. The Genetical Theory of Natural Selection［M］. Oxford： Clarendon Press， 1930.
[4］Haldane J B S. The Causes of Evolution［M］. London： Longman， 1932.
[5］Wright S. Genetic structure of population［J］. Ann Eugenics， 1951， 15：323-354.
[6］Dobzhansky Th. Genetics of the Evolutionary Process［M］. New York：Columbia University Press，1970.
[7］Bishop J A， Cook L M. Genetic Consequences of Manmade Change［M］. New York： Academic Press， 1981.
[8］Daniel L Hartl， Andrew G Clark.Principles of Population Genetics［M］.4th Edition. Sunderland， Massachusetts： Sinauer Associates Inc Publishers， 2007.
[9］Kimura M. The Neutral Theory of Molecular Evolution［M］. Cambridge： Cambridge University Press，1983.
[10］KingJ L， Jukes T H. NonDarwinian evolution［J］. Science，1969， 164：788-798.
[11］Griffiths A J F， Susan R Wessler， Lewontin RC， et al. Introduction to Genetic Analysis［M］.8th Edition. New York： W H Freeman and Company，2005.
[12］施季森，何祯祥.林木无性繁殖及其在遗传改良中的地位[J].世界林业研究，1994，7（1）：25-30.
[13］Jiao Jinping， Lai Jinsheng. Genomewide genetic changes during modern breeding of maize［J］. Nature Genetics， 2012，44（7）: 812-817.
[14］Wright J W. Introduction to Forest Genetics［M］.New York：Academic Press， 1976.
[15］Ronnie de Jonge. Tomato immune receptor Ve1 recognizes effector of multiple fungal pathogens uncovered by genome and RNA sequencing［J］. PNAS， 2012， 109（13）：5110-5115.
[16］LindbladToh. Genome sequence， comparative analysis and haplotype structure of the domestic Dog［J］. Nature， 2005，438: 803-819.
[17］陈岳武，施季森. 杉木遗传改良中的若干基本问题［J］.南京林业大学学报， 1983，7（4）：5-16.
[18］陈岳武，施季森. 杉木遗传改良中的若干基本问题（续）［J］.南京林业大学学报， 1984，8（1）：1-15.
[19］施季森，洪菊生.杉木遗传多态性与多基因位点遗传结构［J］.南京林业大学学报， 1993， 17（3）：9-15.
[20］Yeh F C, Shi J S, Yang R，Hong J， et al. Genetic diversity and multilocus associations in Cunninghamia lanceolata （Lamb.） Hook from the Peoples Republic of China［J］.Theor Appl Genet，1994， 88：465-471.
[21］贺林. 解码生命：人类基因组计划和后基因组计划［M］.北京：科学出版社，2000.
[22］Declan Butler. Human genome at ten： science after the sequence［J］. Nature， 2010，465：1000-1001.
[23］Erika Check Hayden. Human genome at ten： life is complicated［J］. Nature， 2010，464：664-667.
[24］Balzs Papp， Richard A Notebaart，Csaba Pl. Systemsbiology approaches for predicting genomic evolution［J］.Nature Reviews of Genetics，2011， 12（9）：591-602.
[25］Tuskan G A， DiFazio S P， Hellsten U，et al. The genome of black cottonwood， Populus trichocarpa （Torr ＆ Gray ex Brayshaw）［J］. Science， 2006， 313（1596）：1596-1604.
[26］Yin T M， DiFazio S P， Gunter LE，et al. Genome structure and emerging evidence of an incipient sex chromosome in Populus［J］. Genome Research， 2008， 18（3）：422-430.
[27］Albert T， Molla M N， Muzny D M，et al. Direct selection of genomic loci by microarray hybridization［J］. Nature Methods，2007，4 （11）： 903-905.
[28］尹佟明，施季森. 解码林木基因组［G］／／吴长信.10000个科学难题：农业科学卷.北京：科学出版社，2011.
[29］Ray Ming， Shaobin Hou， Yun Feng， et al. The draft genome of the transgenic tropical fruit tree papaya （Carica papaya Linnaeus）［J］.Nature， 2008， 452：991-997.
[30］Zharkikh A， Michela Troggio， Dmitry Pruss，et al. Sequencing and assembly of highly heterozygous genome of Vitis vinifera L. cv Pinot Noir： problems and solutions［J］. J Biotechnol， 2008，136： 38-43.
[31］Bryon Sosinski， Ignazio Verde， Daniel Rokhsar. Early online access to the assembled peach genome［EB／OL］.
[2008-11-20］. http：／／www.rosaceae.org／peach／genome.
[32］Riccardo Velasco， Andrey Zharkikh， Jason Affourtit， et al. The genome of the domesticated apple （Malus×domestica Borkh.）［J］. Nature Genetics， 2010， 42：833-839.
[33］Xavier Argout， Jerome Salse， JeanMarc Aury，et al. The genome of Theobroma cacao［J］. Nature Genetics，2011， 43： 101-108.
[34］Fred G. Gmitter Jr， Chunxian Chen， et al. Citrus genomics［J］.Tree Genetics ＆ Genomes，2012， 8：611-626.
[35］Zander Myburg， Dario Grattapaglia， Jerry Tuskan. Why Sequence the Eucalyptus Tree?［J／OL］.（2011-09-18）. http：／／www.jgi.doe.gov／sequencing／why／99176.html.
[36］Benjamin A Flusberg， Dale R Webster， Jessica H Lee， et al. Direct detection of DNA methylation during singlemolecule， realtime sequencing［J］. Nature Methods， 2010， 7： 461-465.
[37］Song ChunXiao， Tyson A Clark， Lu XingYu， et al. Sensitive and specific singlemolecule sequencing of 5hydroxymethylcytosine［J］. Nature Methods， 2011， 9： 75-77.
[38］Shiv Kumar， Chuanjuan Tao， Minchen Chien， et al. PEGLabeled nucleotides and nanopore detection for single molecule DNA sequencing by synthesis［J／OL］. （2012-09-21）. http：／／www.nature.com／srep／2012／120921／srep00684／full／srep00684.html.
[39］Elizabeth A Manrao， Ian M Derrington， Andrew H Laszlo， et al. Reading DNA at singlenucleotide resolution with a mutant MspA nanopore and phi29 DNA polymerase［J］. Nature Biotechnology， 2012， 30： 349-353.
[40］Kermit Ritland. Genomics of a phylum distant from flowering plants： conifers［J］. Tree Genetics ＆ Genomes，2012， 8：573-582.
[41］Groover A T.What genes make a tree a tree?［J］.Trends in Plant Science，2005，10（5）：1360-1385.
[42］Alvis Brazma， Maria Krestyaninova， Ugis Sarkans. Standards for systems biology［J］. Nature Reviews Genetics， 2006，7： 593-605.
[43］李来庚. 木材形成的遗传调控10000个科学难题：农业科学卷［G］／／吴长信. 北京：科学出版社，2011.
[44］Hertzberg M， Aspeborg H， Schrader J， et al. A transcriptional roadmap to wood formation［J］. Proc Natl Acad Sci， 2001，98： 14732-14737.
[45］Demura T， Fukuda H. Transcriptional regulation in wood formation［J］. Trends Plant Sci， 2007，12： 64-70.
[46］Eriksson M E， Israelsson M， Olsson O， et al. Increased gibberellin biosynthesis in transgenic trees promotes growth， biomass production and xylem fiber length［J］. Nature Biotechnology， 2000，18： 784-788.
[47］Nilsson J， Karlberg A， Antti H， et al. Dissecting the molecular basis of the regulation of wood formation by auxin in hybrid aspen［J］. Plant Cell， 200820： 843-855.
[48］Li L， Zhou Y， Cheng X， et al. Combinatorial modification of multiple lignin traits in trees through multigene cotransformation［J］. Proc Natl Acad Sci，2003，100： 4939-4944.
[49］Suzuki S， Li L， Sun Y H， et al. The cellulose synthase gene superfamily and biochemical functions of xylemspecific cellulose synthaselike genes in Populus trichocarpa［J］. Plant Physiol，2006， 142： 1233-1245.
[50］Li L G， Lu S F， Chiang V. A genomic and molecular view of wood formation［J］. Critical Reviews in Plant Sciences， 2006，25： 215-233.
[51］Mellerowicz E J， Sundberg B. Wood cell walls： biosynthesis， developmental dynamics and their implications for wood properties［J］. Curr Opin Plant Biol， 2008，11： 293-300.
[52］Zhong R， Burk D H， Morrison W H， et al. A kinesinlike protein is essential for oriented deposition of cellulose microfibrils and cell wall strength［J］. Plant Cell，2002，14：

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Prospection on some topics of forest genetic improvement through modern biotechnology for the next-ten-years in China

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