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[24]Durbak A,Yao H,MeSteen P.Hormone signaling in plant development [J].Current Opinion in Plant Biology,2012.15(1):92-96. [25]Aguilar-Martinez J A,Poza-Carrion C.Cubas P.Arabidopsis BRANCHEDI acts as an integrator of branching signals within axillary buds [J].The Plant Cell.2007.19(2):458-472. 责任编辑：范雪梅 ?1994-2016 China Academic Journal Electronic Publishing House.All rights reserved.http://www.cnki.net南 京 农 业 大 学 学 报 第 39 卷 Feng D，Chen G L． Shoot-branching control with stirgolactones research progresss［J］． Chinese Jorunal of Ecology，2011，30( 2) : 349 － 356 ( in Chinese with English abstract) ． ［2］ 张荣祥，杨清，赵德刚． 新型植物激素———独脚金内酯［J］． 生物学通报，2011，46( 5) : 10－13． Zhang Ｒ X，Yang Q，Zhao D G． New plant hormone: strigolactones［J］． Bulletin of Biology，2011，46( 5) : 10－13( in Chinese with English abstract) ． ［3］ Waldie T，McCulloch H，Leyser O． Strigolactones and the control of plant development: lessons from shoot branching［J］． The Plant Journal， 2014，79( 4) : 607－622． ［4］ Arite T，Umehara M，Ishikawa S，et al． d14，a strigolactone-insensitive mutant of rice，shows an accelerated outgrowth of tillers［J］． Plant and Cell Physiology，2009，50( 8) : 1416－1424． ［5］ Sorefan K，Booker J，Haurogné K，et al． MAX4 and ＲMS1 are orthologous dioxygenase-like genes that regulate shoot branching in Arabidopsis and pea［J］． Genes and Development，2003，17( 12) : 1469－1474． ［6］ Stirnberg P，van de Sande K，Leyser H M O． MAX1 and MAX2 control shoot lateral branching in Arabidopsis［J］． Development，2002，129( 5) : 1131－1141． ［7］ Gomez-Ｒoldan V，Fermas S，Brewer P B，et al． Strigolactone inhibition of shoot branching［J］． Nature，2008，4455( 7210) : 189－194． ［8］ Minakuchi K，Kameoka H，Yasuno N，et al． FINE CULM1( FC1) works downstream of strigolactones to inhibit the outgrowth of axillary buds in rice［J］． Plant and Cell Physiology，2010，51( 7) : 1127－1135． ［9］ Booker J，Auldridge M，Wills S，et al． MAX3 /CCD7 is a carotenoid cleavage dioxygenase required for the synthesis of a novel plant signaling molecule［J］． Current Biology，2004，14( 14) : 1232－1238． ［10］ Lin H，Wang Ｒ，Qian Q，et al． DWAＲF27，an iron-containing protein required for the biosynthesis of strigolactones，regulates rice tiller bud outgrowth［J］． The Plant Cell，2009，21( 5) : 1512－1525． ［11］ Umehara M，Hanada A，Yoshida S，et al． Inhibition of shoot branching by new terpenoid plant hormones［J］． Nature，2008，455 ( 7210) : 195－200． ［12］ 王玫，陈洪伟，刘克锋． 外源 GＲ24 对一串红生长发育的影响［J］． 江苏农业科学，2015，43( 2) : 164－167． Wang M，Chen H W，Liu K F． Effects of exogenous GＲ24 on the growth and development of tropical sage［J］． Jiangsu Agricultural Sciences， 2015，43( 2) : 164－167( in Chinese with English abstract) ． ［13］ Xu J，Zha M，Li Y，et al． The interaction between nitrogen availability and auxin，cytokinin，and strigolactone in the control of shoot branching in rice( Oryza sativa L．) ［J］． Plant Cell Ｒeports，2015，34( 9) : 1647－1662． ［14］ 侯喜林，宋小明． 不结球白菜种质资源的研究与利用［J］． 南京农业大学学报，2012，35( 5) : 35－ 42． DOI: 10． 7685 /j．issn． 1000－ 2030． 2012．05．005． Hou X L，Song X M． Ｒesearch and utilization of Brassica campestris ssp. chinensis Makino( non-heading Chinese cabbage) germplasm resources ［J］． Journal of Nanjing Agricultural University，2012，35( 5) : 35－42( in Chinese with English abstract) ． ［15］ 曹寿椿，李式军． 白菜地方品种的初步研究［J］． 南京农学院学报，1980( 2) : 32－38． DOI: 10．7685 /j．issn．1000－2030．1980．02．005． Cao S C，Li S J． Preliminary study on local varieties of Chinese cabbage［J］． Journal of Nanjing Agricultural College，1980( 2) : 32－38( in Chinese with English abstract) ． ［16］ Kebrom T H，Spielmeyer W，Finnegan E J． Grasses provide new insights into regulation of shoot branching［J］． Trends in Plant Science，2013， 18( 1) : 41－48． ［17］ Cheng X，Ｒuyter-Spira C，Bouwmeester H． The interaction between strigolactones and other plant hormones in the regulation of plant develop￾ment［J］． Frontiers in Plant Science，2013，4: 199． ［18］ Germain A D S，Bonhomme S，Boyer F D，et al． Novel insights into strigolactone distribution and signalling［J］． Current Opinion in Plant Biology， 2013，16( 5) : 583－589． ［19］ 刘拥海，俞乐，丁君辉，等． 植物激素对分枝发育的协同调控作用研究进展［J］． 植物生理学报，2012，48( 10) : 941－948． Liu Y H，Yu L，Ding J H，et al． Ｒesearch progress in synerigistic regulatory roles of phytohormones in shoot branching［J］． Plant Physiology Journal，2012，48( 10) : 941－948( in Chinese with English abstract) ． ［20］ Tantikanjana T，Yong J W H，Letham D S，et al． Control of axillary bud initiation and shoot architecture in Arabidopsis through the SUPEＲ- SHOOT gene［J］． Genes and Development，2001，15( 12) : 1577－1588． ［21］ Schwarz S，Grande A V，Bujdoso N，et al． The microＲNA regulated SBP-box genes SPL9 and SPL15 control shoot maturation in Arabidopsis［J］． Plant Molecular Biology，2008，67( 1 /2) : 183－195． ［22］ Luisi A，Lorenzi Ｒ，Sorce C． Strigolactone may interact with gibberellin to control apical dominance in pea( Pisum sativum) ［J］． Plant Growth Ｒegulation，2011，65( 2) : 415－419． ［23］ 刘旭． 成熟期不同的梨品种果实生长发育机理探究［D］． 雅安: 四川农业大学，2008: 37－39． Liu X． Studies on mechanism of fruit growth and development of different ripening-season of pears［D］． Ya'an: Sichuan Agricultural University， 2008: 37－39( in Chinese with English abstract) ． ［24］ Durbak A，Yao H，McSteen P． Hormone signaling in plant development［J］． Current Opinion in Plant Biology，2012，15( 1) : 92－96． ［25］ Aguilar-Martínez J A，Poza-Carrión C，Cubas P． Arabidopsis BＲANCHED1 acts as an integrator of branching signals within axillary buds［J］． The Plant Cell，2007，19( 2) : 458－472． 责任编辑: 范雪梅 273