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

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2017Äê02

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Title:

Relationship Between ¡®Hard End¡¯ and Active Oxygenª¤ Metabolism in ¡®Whangkeumbae¡¯ Pear Fruit

Author(s):

LI Zhijun; YANG Shaolan; WANG Ran

(College of Horticulture£¬Qingdao Agricultural University/Qingdao Key Laboratory of Genetic Improvement and Breeding of Horticultural Plants£¬Qingdao£¬Shandong 266109)

Keywords:

¡®Whangkeumbae¡¯; ¡®hard end¡¯ disorder; water stress; lignificationª¥

PACS:

-

DOI:

10.11937/bfyy.201702001

Abstract:

¡®Whangkeumbae¡¯ pear trees often bear fruits with ¡®hard end¡¯ cells in fruit top in recently years£¬commonly known as the ¡®iron head¡¯¡®green head¡¯£¬which is a kind of physiological disorder.When the disorder happened£¬the flesh got ¡®hard end¡¯ and lost its crisp£¬juicy taste.Based on many years of investigation£¬the differences of water potential changes of leaves and fruits£¬the contents of H2O2£¬MDA£¬lignin and the activities of scavenger enzymes (SOD£¬POD£¬CAT£¬APX) were analyzed during the fruit development between the normal and abnormal trees.The results showed that comparing with the normal trees£¬the water potential of leaves and fruits was lower£¬and the content of H2O2£¬MDA and lignin were higher in disorder happened ¡®Whangkeumbae¡¯ trees.There was a significant negative correlation (r=-0.828 3£¬P£¼0.01) between water potential and H2O2 content£¬and a significant positive correlation £¨r=0.764 2£¬P£¼0.05£©between H2O2 content and MDA content in disorder happened trees.The SOD activity were significant lower£¬and the POD£¬CAT£¬APX activities were markedly higher in disorder happened trees than those in the normal trees.It was believed that there might be some extend of water stress in the disorder happened trees or fruiting positions of the tree£¬which excited the changes of the dynamic equilibrium of active oxygen production and scavenge status and caused the excessive production of H2O2£¬MDA and increases of POD activity.Thus the lignin synthesis was promoted and the parenchymal cells near epidermal were lignified.ª¤

References:

 

[1]¹¬ªªÃÀÓ¢.»Æ½ðÀæÌúÍ·²¡³ÉÒòÑо¿³õ±¨[J].Öйú¹ûÊ÷,2013(4):33-36.ª¤

[2]Âí´ºêÍ,ÀÁ¢,ÍõÈ».»Æ½ðÀæ¡°ÌúÍ·²¡¡±¹ûÈâ×éÖ¯ÇÐƬ¹Û²ì[J].±±·½Ô°ÒÕ,2014(13):109-113.ª¤

[3]ÓÚÁ¢ÄÈ,ÍõÈ»,Ô­ÓÀ±ø,µÈ.¡®»Æ½ðÀ桯¹ûÈâÓ²»¯Ö¢µÄ¹ûʵÏÔ΢½á¹¹¹Û²ì[J].Ö²ÎïÉúÀíѧͨѶ,2010,46(8):783-786.ª¤

[4]ÀîÖ¾¾ü,ÍõÈ».Ò¶¡¢¹ûË®ÊƺÍҶƬ¹âºÏÖ¸±ê¶Ô»Æ½ðÀæ»Æ¶¥²¡·¢²¡µÄÓ°Ïì[J].±±·½Ô°ÒÕ,2011(4):29-32.ª¤

[5]LALOI C£¬APEL K£¬DANON A.Reactive oxygen signaling£ºThe latest news[J].Current Opinion in Plant Biology,2004(7):323-328.ª¤

[6]KWAK J M£¬NGUYEN V£¬SCHROEDER J I.The role of reactive oxygen species in hormonal responses[J].Plant Physiology,2006,141:323-329.ª¤

[7]NEILL S£¬DESIKAN R£¬HANCOCK J.Hydrogen peroxide signaling[J].Current Opinion in Plant Biology,2002(5):388-395.ª¤

[8]LU G L£¬LI Z J£¬ZHANG X F,et al.Expression analysis of lignin-associated genes in hard end pear (Pyrus pyrifolia Whangkeumbae) and its response to calcium chloride treatment conditions[J].J Plant Growth Regul£¬2015,34:251-262.ª¤

[9]Íõ°®¹ú.Ö²ÎïµÄÑõ´úл[M]//ÓàÊåÎÄ,ÌÀÕ³Ï.Ö²ÎïÉúÀíÓë·Ö×ÓÉúÎïѧ.±±¾©:¿Æѧ³ö°æÉç,1998:366-389.ª¤

[10]ÍõÍòÀï.ѹÁ¦ÊÒÔÚÖ²ÎïË®·Ö×´¿öÑо¿ÖеÄÓ¦ÓÃ[J].Ö²ÎïÉúÀíѧͨѶ,1984(3):52-57.ª¤

[11]ÀîÕýÀí.Ö²ÎïÖÆƬ¼¼Êõ[M].2°æ.±±¾©:ÖйúÅ©Òµ¼¼Êõ³ö°æÉç,1987:8-78.ª¤

[12]DHINDSA R S£¬DHINDSA P P£¬THROPE T A.Leaf senescence:correlated with increased levels of membrane permeability and lipidperoxidation£¬and decreased levels of superoxide dismutase and catalase[J].Exp Bot,1981(3):93-101.ª¤

[13]MURR D P£¬MORRIS L L.Influence of O2 and CO2 on odiphenol oxidase activity in mushrooms[J].J Amer Soc Hort Sci,1974,99:155-158.ª¤

[14]CAKMAK I£¬STRBOE D£¬MARSCHNER H.Activities of hydrogen peroxide-scavenging enzymes in germinating wheat seeds[J].Exp Bot,1993,44:127-132.ª¤

[15]NAKANOªª Y£¬ASADA K.Hydrogen peroxide is scavenged by ascrobate specific peroxidase in spinach chloroplasts[J].Plant Cell Physiol,1989£¨22£©:867-880.ª¤

[16]ÕÔÊÀ½Ü,ÀîµÂÈ«.Ö²ÎïÉúÀíѧʵÑéÊÖ²á[M].±±¾©:¿Æѧ³ö°æÉç,1999:305.ª¤

[17]SANCHOªª M A£¬FORCHETTI S M£¬PLIEGO A£¬et al.Peroxidase activity and isoenzymes in the culturemedium of NaCl adapted tomato suspension cell[J].Plant Cell Tissue Organ Culture,1996,44:161-167.ª¤

[18]³ÂºèÅô,Ì·Ïþ·ç.³¬Ñõ»¯ÎïÆ绯ø(SOD)Ñо¿×ÛÊö[J].¾­¼ÃÁÖÑо¿,2007,25(1):59-65.ª¤

[19]Àî»Ý»ª,ÀµÖÓÐÛ.ֲλµÑªËá¹ýÑõ»¯ÎïøÑо¿½øÕ¹£¨×ÛÊö£©[J].ÑÇÈÈ´øÖ²Îï¿Æѧ,2006,35(2):66-69.ª¤

[20]ASADA K C.Formation of active oxygen and its scavenging[J].Methods Enzymology,1954,205:422-429.ª¤

[21]³ÂÁ¢ËÉ,ÁõÐÇ»Ô.Ë®·ÖвÆȶÔÀó֦ҶƬ»îÐÔÑõ´úлµÄÓ°Ïì[J].Ô°ÒÕѧ±¨,1998,25(3):241-246.ª¤

[22]CAMPBELL M M£¬RONALD R S.Variation in lignin content and composition[J].Plant Physiology,1996,110:3-13.ª¤

[23]ÎâÔÀÐù,Ôø¸»»ª,ÍõÈÙ³¼.ÔÓ½»Ë®µ¾¶Ô°×Ò¶¿Ý²¡µÄÓÕµ¼¿¹ÐÔÓëϸ°ûÄÚ·ÀÓùøϵͳ¹ØϵµÄ³õ²½Ñо¿[J].Ö²ÎﲡÀíѧ±¨,1996,26(2):32-36.ª¤

[24]Áõ×ðÓ¢,½ªÎ¢²¨.³£ÎÂÏÂGA3´¦Àí¶ÔÂÌ«Ëñ²ÉºóľÖÊ»¯µÄÓ°Ïì[J].ÖйúÅ©Òµ¿Æѧ,2005,38(2):383-387.ª¤

[25]MILOSEVIC N£¬SLUSARENKO A J.Active oxygen metabolism and lignification in the hypersensitive response in bean[J].Physiology and Molecular Plant Pathology,1996,49:143-158.ª¤

[26]ÜÇ»³èª,Éк£ÌÎ,Íô¿ªÍØ,µÈ.ÈÈ´¦Àí¶ÔÀä²ØèÁè˹ûʵ»îÐÔÑõ´úлºÍľÖÊ»¯µÄÓ°Ïì[J].ʳƷ¿Æѧ,2009,30(14):304-308.

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