«Previous Article|Table of Contents|Next Article»

¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2016Äê02

Page:

88-91

Research Field:

Publishing date:

Info

Title:

Research on in vitroª« Micrografting of Malus hupehensisª« var.Pingyiensis

Author(s):

ZHAO Kai1; 2; ZHANG Zhihong2; LI Jinghui1; LI Daxing1; LYU Meng1

(1.Department of Agricultural Engineering£¬Songyuan Vocational Technical College£¬Songyuan£¬Jilin 138005£»2.College of Horticulture£¬Shenyang Agricultural University£¬Shenyang£¬Liaoning 110866)

Keywords:

micrograft; apple; Malus hupehensis var.pingyiensis; sRNA transmission

PACS:

-

DOI:

10.11937/bfyy.201602024

Abstract:

Taking ¡®Pingyitiancha¡¯ (ª«Malus hupehensis var.pingyiensis) as rootstock and ¡®Hanfu¡¯(ª«Malus domesticaª« cv.¡®Hanfu¡¯) as scion£¬the effect of different concentrations of 6-BA£¬ages of scion£¬leaves number of scion£¬kinds of scion/rootstock on the grafting survival rate was researched.The results showed that MS+IAA 0.3 mg/L+6-BA 1.0 mg/L£¬rootstocks and scions were cultured for 40 days£¬with 2 leaves on the scion and ¡®Pingyitiancha¡¯ was used as the rootstock£¬the survival rate of micrografting was 81.3%.Those were the foundation of transferring sRNA from rootstocks to scions.

References:

 

[1]MURASHIGE T£¬BITTERS W£¬RANGAN T£¬et al.Technique of shoot apex grafting and its utilization towards recovering virus-free citrus clones[J].Horticultural Science,1972£¨2£©:19-25.

[2]NAVARRO L.Application of shoot-tip grafting in vitro to woody species[J].International Symposium on Vegetative Propagation of Woody Species£¬1987,227:43-56.

[3]JONARD R£¬LUKMAN D£¬SCHALL F£¬et al.Early testing of graft incompatibilities in apricot and lemon trees using in vitro techniques[J].Scientia Horticulturae,1990£¬43£º117-128.

[4]SINGH B£¬SHARMA S£¬RANI G£¬et al.ª«In vitroª« micrografting for production of Indian citrus ringspot virus (ICRSV)-free plants of kinnow mandarin (ª«Citrus nobilis Lour¡Á C.deliciosaª« Tenora)[J].Plant Biotechnology Reports£¬2008£¨2£©:137-143.

[5]KADAM J£¬KARALE A£¬GARAD B£¬et al.Micrografting in wood apple£¬recent trends in horticultural biotechnology£¬national symposium on biotechnological interventions for improvement of horticultural crops[J].New India Publishing Agency£¬2007£¨2£©:371-373.

[6]³ÌÓñÇÙ,º«Õñº£,ÐíÑ©·å£¬µÈ.ÊÔ¹Ü΢¼Þ½ÓÔçÆÚ¼ø¶¨Ð¡½ðº£ÌÄÓëÆ»¹ûÆ·ÖÖµÄÇ׺ÍÐÔ[J].Å©ÒµÉúÎï¼¼Êõѧ±¨,2003£¨11£©£º472-476.

[7]ÍõÓ±,ÉÌÔ»Ý,ÍõÓñϼ£¬µÈ.ƽÒØÌð²èÓëÔú°«É½¶¨×ÓÔÓ½»ºó´úµÄÅßÌ¥·¢ÓýÌØÕ÷Ñо¿[J].Ô°ÒÕѧ±¨£¬2008,35£º1093-1100.

[8]KANEHIRA A£¬YAMADA K£¬IWAYA T£¬et al.Apple phloem cells contain some mRNAs transported over long distances[J].Tree Genetics and Genomes£¬2010£¨6£©£º635-642.

[9]³ÂÀÙ.Àæ×éÖ¯ÅàÑø¼°Æ÷ÄÚ¼Þ½Ó¼¼ÊõµÄÑо¿[D].ÑÓ¼ª:Ñӱߴóѧ£¬2008.

[10]¤AHAROLDSEN V£¬PAULINO G£¬CHI-HAM C L£¬et al.Research and adoption of biotechnology strategies could improve California fruit and nut crops[J].Calif Agr,2012£¬66(2):62-69.

[11]¤ASANO T£¬ISONO S£¬MATSUKI K£¬et al.Vegetative propagation and its possible role as a genetic bottleneck in the shaping of the apple fruit crinkle viroid populations in apple and hop plants[J].Virus Genes,2008,373:298-303.

[12]¤AHAROLDSEN V£¬SZCZERBA M£¬AKTAS H.Mobility of transgenic nucleic acids and proteins within grafted rootstocks for agricultural improvement[J].Front Plant Sci,2012£¨3£©:39.

[13]¤AÖÜÈð½ð,¶Å¹úÇ¿,ʦУÐÀ.±ê¼Ç»ùÒòª«nptª«¢òÔÚת»ùÒòÆ»¹û¼Þ½ÓÕèËë¼äÎÞÏ໥´«µ¼[J].Ô°ÒÕѧ±¨£¬2006£¨33£©£º1329-1330.

[14]¤AFLACHOWSKY H£¬TRANKER C£¬SZANKOWSKI I£¬et al.RNA-mediated gene silencing signals are not graft transmissible from the rootstock to the scion in greenhouse-grown apple plants Malus sp[J].International Journal of Molecular Sciences£¬2012£¨13£©£º9992-10009.

[15]¤ABULLEY S£¬WILSON F£¬HEDDEN P£¬et al.Modification of gibberellin biosynthesis in the grafted apple scion allows control of tree height independent of the rootstock[J].Plant Biotechnology Journal,2005£¨3):215-223.

Memo

Memo:

-

Common functions

Last Update: 2016-03-18