植物生理与分子生物学学报
植物生理與分子生物學學報
식물생리여분자생물학학보
JOURNAL OF PLANT PHYSIOLOGY AND MOLECULAR BIOLOGY
2002年
3期
215-220
,共6页
靳德明%王维金%蓝盛银%徐珍秀%杨书化
靳德明%王維金%藍盛銀%徐珍秀%楊書化
근덕명%왕유금%람성은%서진수%양서화
水稻%内源激素%强势颖花%弱势颖花%籽粒灌浆
水稻%內源激素%彊勢穎花%弱勢穎花%籽粒灌漿
수도%내원격소%강세영화%약세영화%자립관장
rice%endogenous hormone%superior spikelet%inferior spikelet%grain filling
研究了重穗型杂交水稻培矮 64s/E32的灌浆过程和强、弱势颖花中内源IAA、ABA 和GA1+GA3 水平的动态状况.籽粒发育过程中不同内源激素水平高低依次为:IAA﹥GA1+GA3﹥ABA.IAA 和ABA水平在强势颖花中较高而GA1+GA3水平在弱势颖花中较高.3种激素水平的变化与谷粒增重速率之间均存在正相关,两个最高的相关系数值分别存在于单位鲜重样本的IAA含量(ng/g FW)与籽粒鲜重的增重速率之间(r=0.8218* *) 和单个籽粒 IAA含量(ng/grain)与籽粒干重的增重速率之间(r=0.8485* *).推测启动和维持籽粒灌浆过程可能需要较高的IAA水平;ABA可能具有促进籽粒中同化物的累积和种子成熟的作用;GA1+GA3可能具有保持弱势颖花活性的特殊作用.
研究瞭重穗型雜交水稻培矮 64s/E32的灌漿過程和彊、弱勢穎花中內源IAA、ABA 和GA1+GA3 水平的動態狀況.籽粒髮育過程中不同內源激素水平高低依次為:IAA﹥GA1+GA3﹥ABA.IAA 和ABA水平在彊勢穎花中較高而GA1+GA3水平在弱勢穎花中較高.3種激素水平的變化與穀粒增重速率之間均存在正相關,兩箇最高的相關繫數值分彆存在于單位鮮重樣本的IAA含量(ng/g FW)與籽粒鮮重的增重速率之間(r=0.8218* *) 和單箇籽粒 IAA含量(ng/grain)與籽粒榦重的增重速率之間(r=0.8485* *).推測啟動和維持籽粒灌漿過程可能需要較高的IAA水平;ABA可能具有促進籽粒中同化物的纍積和種子成熟的作用;GA1+GA3可能具有保持弱勢穎花活性的特殊作用.
연구료중수형잡교수도배왜 64s/E32적관장과정화강、약세영화중내원IAA、ABA 화GA1+GA3 수평적동태상황.자립발육과정중불동내원격소수평고저의차위:IAA﹥GA1+GA3﹥ABA.IAA 화ABA수평재강세영화중교고이GA1+GA3수평재약세영화중교고.3충격소수평적변화여곡립증중속솔지간균존재정상관,량개최고적상관계수치분별존재우단위선중양본적IAA함량(ng/g FW)여자립선중적증중속솔지간(r=0.8218* *) 화단개자립 IAA함량(ng/grain)여자립간중적증중속솔지간(r=0.8485* *).추측계동화유지자립관장과정가능수요교고적IAA수평;ABA가능구유촉진자립중동화물적루적화충자성숙적작용;GA1+GA3가능구유보지약세영화활성적특수작용.
The progress of grain filling and changes in endogenous IAA,ABA,GA1 and GA3 contents in the superior and inferior spikelets of a heavy panicle hybrid rice (Oryza sativa L.) Peiai 64s/E32 were studied.The overall contents of different hormones in developing grains were IAA﹥GA1+GA3﹥ABA.IAA and ABA contents were higher in superior spikelets while GA1+GA3 level was higher in inferior spikelets.Positive correlations have been found between the hormone contents and grain weight increase rates with the highest correlations between IAA content per unit fresh weight (ng/g FW) and fresh weight increase rate (r=0.8218* *) and between the average IAA content per grain (ng/grain) and dry weight increase rate (r=0.8485* *).The results suggest that a relatively high level of IAA may be required to initiate and maintain grain filling.ABA may have the functions of positively regulating assimilate accumulation and accelerating seed maturation.GA1+GA3 may play a special role in maintaining the viability of inferior spikelets during their delayed grain filling.