植物研究
植物研究
식물연구
BULLETIN OF BOTANICAL RESEARCH
2007年
5期
612-615
,共4页
于景华%李艳华%张学科%祖元刚%唐中华%常影%高银祥
于景華%李豔華%張學科%祖元剛%唐中華%常影%高銀祥
우경화%리염화%장학과%조원강%당중화%상영%고은상
转基因%喜树%UGPase%木材化学成分%生长速率
轉基因%喜樹%UGPase%木材化學成分%生長速率
전기인%희수%UGPase%목재화학성분%생장속솔
transgenic C.acuminata%UGPase%wood chemical compositions%growth rate
分析了田间栽培条件下2年生转UGPase基因喜树与对照株的木材化学成分与生长速率.结果表明,转UGPase基因喜树综纤维素含量达到78.87%,比对照株相比提高了2.23%;纤维素含量为36.34%,与对照株相比没有明显提高;木质素含量为15.05%,较对照株降低了1.75%;两者的灰分含量均较低且无显著差异;冷、热水抽提物含量为7.62%与10.17%,分别提高了2.04%与2.13%;1%NaOH抽提物含量为27.13%,提高了1.27%.因此,就综纤维素、木质素、灰分含量而言,转UGPase基因喜树为优质纸浆材,水抽提物和1%NaOH抽提物的含量略高,在纸浆生产中需加以重视.本文还对转UGPase基因喜树与对照株的株高、基径、生物量进行了动态监测,结果表明,从5月25日到11月10日的生长季中,其株高平均增加121 cm,对照株平均仅67.8 cm,株高生长速率提高了78.47%;基径平均增加1.792 cm,对照株平均仅0.532 8 cm,提高了236.37%;地上部分生物量的积累与对照相比提高了322.61%,即转入UGPase基因使喜树生长速率显著提高.因此,虽然转UGPase基因喜树的综纤维素和纤维素含量没有明显提高,但其生长速率快,生物量增长显著,间接提高了纤维素与喜树碱的产量.因此,转基因喜树较普通喜树更符合纸浆材速生、纤维素含量高和产量高、木质素含量低的基本要求,可在生产中进一步推广.
分析瞭田間栽培條件下2年生轉UGPase基因喜樹與對照株的木材化學成分與生長速率.結果錶明,轉UGPase基因喜樹綜纖維素含量達到78.87%,比對照株相比提高瞭2.23%;纖維素含量為36.34%,與對照株相比沒有明顯提高;木質素含量為15.05%,較對照株降低瞭1.75%;兩者的灰分含量均較低且無顯著差異;冷、熱水抽提物含量為7.62%與10.17%,分彆提高瞭2.04%與2.13%;1%NaOH抽提物含量為27.13%,提高瞭1.27%.因此,就綜纖維素、木質素、灰分含量而言,轉UGPase基因喜樹為優質紙漿材,水抽提物和1%NaOH抽提物的含量略高,在紙漿生產中需加以重視.本文還對轉UGPase基因喜樹與對照株的株高、基徑、生物量進行瞭動態鑑測,結果錶明,從5月25日到11月10日的生長季中,其株高平均增加121 cm,對照株平均僅67.8 cm,株高生長速率提高瞭78.47%;基徑平均增加1.792 cm,對照株平均僅0.532 8 cm,提高瞭236.37%;地上部分生物量的積纍與對照相比提高瞭322.61%,即轉入UGPase基因使喜樹生長速率顯著提高.因此,雖然轉UGPase基因喜樹的綜纖維素和纖維素含量沒有明顯提高,但其生長速率快,生物量增長顯著,間接提高瞭纖維素與喜樹堿的產量.因此,轉基因喜樹較普通喜樹更符閤紙漿材速生、纖維素含量高和產量高、木質素含量低的基本要求,可在生產中進一步推廣.
분석료전간재배조건하2년생전UGPase기인희수여대조주적목재화학성분여생장속솔.결과표명,전UGPase기인희수종섬유소함량체도78.87%,비대조주상비제고료2.23%;섬유소함량위36.34%,여대조주상비몰유명현제고;목질소함량위15.05%,교대조주강저료1.75%;량자적회분함량균교저차무현저차이;랭、열수추제물함량위7.62%여10.17%,분별제고료2.04%여2.13%;1%NaOH추제물함량위27.13%,제고료1.27%.인차,취종섬유소、목질소、회분함량이언,전UGPase기인희수위우질지장재,수추제물화1%NaOH추제물적함량략고,재지장생산중수가이중시.본문환대전UGPase기인희수여대조주적주고、기경、생물량진행료동태감측,결과표명,종5월25일도11월10일적생장계중,기주고평균증가121 cm,대조주평균부67.8 cm,주고생장속솔제고료78.47%;기경평균증가1.792 cm,대조주평균부0.532 8 cm,제고료236.37%;지상부분생물량적적루여대조상비제고료322.61%,즉전입UGPase기인사희수생장속솔현저제고.인차,수연전UGPase기인희수적종섬유소화섬유소함량몰유명현제고,단기생장속솔쾌,생물량증장현저,간접제고료섬유소여희수감적산량.인차,전기인희수교보통희수경부합지장재속생、섬유소함량고화산량고、목질소함량저적기본요구,가재생산중진일보추엄.
Plant UDP-glucose(UDPG)pyrophosphorylase(UGPase)is involved in the production of UDPG,a key metabolite for sucrose and cell wall biosynthesis.It has been shown that UGP can increase the cellulose content of wood.In order to enhance the cellulose content of Camptotheca acuminata Decne,Axgllnum UGP gene had been transferred into C.acuminata.This paper concerned the wood chemical compositions and growth rate of the UGP transgenic C.acuminata,analyzed the data according to the typical broad-leaved pulpwood stander.Result showed that:the contents of holocellulose,cellulose,and lignin were 78.87%,36.34%and 15.05% respectively,the transformed plants are more fitful for paper making compared with control.From May to November,we checked the height,base diameter and biomass of UGP transgenic plant and control each month,the result showed that:three parameter of transgenic plants raised 78.00%,236.37%and 322.61%respectively of contr01.In short,the growth rate of transgenic plant increased obviously.Above all,C.acuminata was a good quality pulpwood,and the UGP,although not increasing the cellulose properties obviously,improved the growth rate and total biomass significantly,and increased the cellulose yield indirectly.