荞麦愈伤组织分化与过氧化物酶活性及其同工酶关系的研究

在附加不同外源激素的培养基中,龙山荞的子叶愈伤组织表现出不同的分化状态：（１）不分化;（２）分化根;（３）分化芽;（４）分化全苗。四种愈伤组织的过氧化物酶活性的相对幽会为１：１．４７：５．９５：７．７８,并且过氧化物酶同工酶谱也存在明显差异。酶带４’为分化愈伤组织所特有;酶带２’为未分化和分化愈伤组织所共有;在分化根和未分化愈伤组织中缺少酶带１’;未分化愈伤组织比分化愈伤组织多出酶带３’。     

金鱼草愈伤组织过氧化物酶活性及其同工酶变化

在不同激素比例的MS培养基上 ,金鱼草 (Antirrhinummajus)茎愈伤组织主要有三种分化状态 :a愈伤组织不分化 ;b以器官发生途径分化出不定芽和不定根 ;c通过胚胎发生途径形成胚状体。过氧化物酶活性与愈伤组织分化程度呈正相关。未分化愈伤组织与分化芽、分胚状体及分化芽和根的愈伤组织酶活性呈线性递增关系 ,相对酶活力为 1:3:5 :6。在其同工酶谱中 ,三种状态的愈伤组织都具有酶带I和II,表明这两种同工酶与细胞的增殖生长有联系。分化的愈伤组织比未分化愈伤组织多出现酶带Ⅲ、Ⅳ和Ⅴ ,说明这三条酶带是影响分化的特异蛋白质。在分化芽的愈伤组织中 ,还存在酶带Ⅳ ,说明它是催化器官发生途径的特有同工酶。     

DMSO浸种对水稻种子愈伤组织诱导、再分化的影响

用0.2%、1%、5%二甲亚砜(DMSO)浸种处理水稻种子1、3、6小时,可促进种子成熟胚的愈伤组织诱导率,尤以0.2%DMSO浸种1小时效果最好。同时,DMSO浸种还明显促进所诱导的愈伤组织的根、芽分化,其中根分化率以5%DMSO浸种1小时的为最高,而芽分化率以1%DMSO浸种3小时的为最高,表明DMSO对愈伤组织分化芽和分化根的适宜浓度是不同的。DMSO浸种还明显影响细胞透性、过氧化物酶同工酶谱的变化和增强淀粉酶的活性。比较过氧化物酶同工酶酶带3/7及4/10的峰高比值和愈伤组织芽分化率的关系,两者呈正相关。另外,愈伤组织的细胞透性也与芽分化率和总培养效率之间呈正相关。     

金鱼草愈伤组织过氧化的酶活性及其同工酶变化

在不同激素比例的MS培养基上,金鱼草（Antirrhinum majus）茎愈伤组织主要有三种分化状态：a愈伤组织不分化;b以器官发生途径分化出不定芽和不定根;c通过胚胎发生途径形成胚状体。过氧化物酶活性与愈伤组织分化程度呈正相关。未分化愈合组织与分化芽,分胚状体及分化芽和根的愈伤组织酶活性呈线性递增关系,相对酶活力为1：3：5：6。在其同工酶谱中,三种状态的愈伤组织都具有酶带和Ⅰ和Ⅱ,表明这两种同工酶与细胞的增殖生长有联系。分化的愈伤组织经未分化愈伤组织多出现酶带Ⅲ,Ⅳ和Ⅴ,说明这三条酶带是影响分化的特异蛋白质。在分化芽的愈伤组织中,还存在酶带Ⅳ,说明它是催化器官发生途径的特有同工酶。     

石刁柏体细胞胚胎发生过程中蛋白质及同工酶变化的研究

本文报道石刁柏胚性愈伤组织的可溶性蛋白质含量与组分、过氧化物酶和酯酶的活力及同工酶带均比其体细胞胚的要少。而在体细胞胚胎发生过程中,过氧化物酶和酯酶活力、可溶性蛋白质含量均以球形胚为最低,子叶分化期胚为最高而呈递增趋势;可溶性蛋白质组分以子叶分化期胚、成熟胚为最多,球形胚、香蕉形胚为最少;过氧化物酶同工酶带以梨形胚为最多,子叶分化期胚、成熟胚为最少;酯酶同工酶则以子叶分化期胚为最多,成熟胚为最少。胚性愈伤组织与体细胞胚均有其特异性可溶性蛋白质及同工酶带,可作为体细胞胚胎发生的分子标记。     

花椰菜(Brassica oleracea var botrytis)下胚轴培养过程中过氧化物酶活性及同工酶谱的变化

花椰菜下胚轴外植体在MS+6BA 5 ppm的培养基上能分化出芽,在MS+2,4-D2ppm的培养基上能脱分化而形成愈伤组织。用3种不同的酚类物质(咖啡酸、阿魏酸、愈创木酚及联苯胺)作氢供体发现分化过程中的过氧化物酶活性高于脱分化过程,其中以咖啡酸作氢供体显示的活性最高,阿魏酸及愈创木酚次之,而联苯胺最小。用聚丙烯酰胺凝胶电泳分离阴极向及阳极向过氧化物酶同工酶,在分化及脱分化培养过程中均不断出现新的酶带,前者有13条,后者为11条,两者的差别主要在阴极向酶带,在分化过程中多了两条酶带(C_1和C_3),同时C_2带活性也比脱分化的高。阳极向酶带也有差别,A_2和A_2两条酶带在分化过程中逐渐加强,但是在脱分化过程中却逐渐消失。反映了两个过程生理上的差别。     

尾叶桉的不同类型愈伤组织芽分化与某些相关生理生化指标的关系

切取8d苗龄的尾叶桉幼苗下胚轴,培养7d后愈伤组织的诱导率达100%。8周后,愈伤组织分化成褐色、白色和浅绿色3种类型。其中只有浅绿色愈伤组织能分化出不定芽,分化率达57%。浅绿色愈伤组织的过氧化物酶（POD）、超氧化物歧化酶（SOD）、过氧化氢酶（CAT）和多酚氧化酶（PPO）的活性最高。除SOD外,浅绿色愈伤组织的POD、CAT和PPO活性与其他两类愈伤组织相比具有显著性差异（P〈0.05）。H2O2和丙二醛含量则是褐色愈伤组织的最高。     

红花的愈伤组织诱导及其与过氧化物酶和酯酶同工酶的关系

红花外植体培养于附加不同激素的 MS培养基中,根、胚轴、子叶均可大量形成愈伤组织和根。5个红花品种间过氧化物酶和酯酶同工酶酶谱的差异小于不同器官间的差异。随外植体子叶脱分化过程的进行,过氧化物酶同工酶酶带逐渐增多,而酯酶同工酶酶带则逐渐减少,并出现特异的诱导酶带。     

激光辐照葡萄愈伤组织的过氧化物酶同工酶分析

利用法国产ＤＡＴＡＣＨＲＯＭ—５０００型染料脉冲激光器处理葡萄“胜利”品种的愈伤组织,用聚丙烯酰胺凝胶电泳法（ＰＡＧＥ）分离过氧化物酶同工酶,研究了激光辐照对葡萄生长发育和过氧化物酶同工酶表达的影响,发现：适当剂量的激光辐照能使葡萄愈伤组织明显提前分化;激光能够影响葡萄过氧化物酶同工酶基因的调控,适当剂量的激光能够促进该基因的表达;激光处理的愈伤组织在不同的生长发育时期与对照相比,过氧化物酶同工酶在数目和活性上有明显增加。     

枸杞组织培养中过氧化物酶和可溶性蛋白质的变化

枸杞(Lycium barbarum L.)叶组织切块接种在附加6-BA 0.5毫克/升和NAA 0.5毫克/升的MS固体培养基上可大量诱导产生愈伤组??织,培养至30天分化出芽,到50天长成小苗。过氧化物酶活性和可溶性蛋白质的含量分别在大量分生细胞团形成和芽形成时出现两个峰值,酸性蛋白质的种类也在这两个时期迅速增加。过氧化物酶同工酶阳极端出现的四条酶带中,A_2、A_3较稳定,A_1、A_4则在不同发育时期呈现规律性的变化。     

Biomolecular changes during in vitro organogenesis of Asteracantha longifolia (L.) Nees--a medicinal herb

High frequency plant regeneration in A. longifolia (L.) was achieved from leaf explant implanted on MS basal medium supplemented with NAA (0.5 mg/l) + BA (2.0 mg/l) through intervening callus phase. Well-developed shoots (>3cm) were successfully rooted on MS medium supplemented with NAA (0.1 mg/l). Protein and total soluble sugar contents were maximum during organogenesis and multiple shoot induction phase compared with non-organogenic callus and root induction phase. Esterase and catalase activities were maximum during organogenic differentiation, while activities were minimum at non-differentiated callus stages. Peroxidase activities were higher during rhizogenesis. Contradiction to peroxidase activity, acid phosphatase activities were high during organogenesis and declined during rhizogenesis. SDS-PAGE analysis of total soluble proteins revealed expression of non-organogenic callus (97.9 kDa), organogenic callus (77.2, 74.1, 21.9 kDa), multiple shoot induction phase (106.6, 26.9, 11.6 kDa) and root induction phase (15.9 kDa) specific polypeptides. Esterase zymogram revealed one band (Rm 0.204) appeared in both organogenic callus and multiple shoot induction phase. Peroxidase zymogram detected two stage specific bands, one band (Rm 0.42) was specific to root induction phase, while another (Rm 0.761) was specific to multiple shoot induction. Catalase and acid phosphatase zymogram resolved one band (Rm 0.752 and 0.435, respectively) in differentiated stages including both multiple shoot induction phase and root induction phase, but absent in undifferentiated phases.     

野生稻的遗传学研究——Ⅱ、普通野生稻过氧化物酶同工酶的多态性研究

本文利用电泳方法,研究了普通野生稻,尤其是中国和印度普通野生稻的过氧化物酶同工酶的多态性,结果表明: 1).普通野生稻中,过氧化物酶同工酶能分离出24条酶带,各酶带的出现频率不同,其中第3、5、6、9、10、11、19、20、21和22号酶带出现频率超过50%,又以第3、20和22三条酶带出现频率最高,这10条带可以做为普通野生稻过氧化物酶同工酶的基本酶谱,而第3、20和22三条带可能是其原始酶带。2).中国和印度的普通野生稻过氧化物酶同工酶有一定差异,但在墓本酶谱和原始酶带的表现上是一致的。因此,尽管普通野生稻过氧化物酶同工酶具有高度的分子多态性,但仍能反映种的分子特征。本文还讨论了过氧化物酶同工酶与普通野生稻的演化,和我国栽培稻的起源及其在进化学研究中的价值。     

Selection of higher regenerative callus and change in isozyme pattern in rice (Oryza sativa L.)

Summary Calli were initiated from seedling roots in rice (Oryza sativa L. var. Tadukan) and subcultured at 45-day intervals on MS medium supplemented with 2 mg/l 2,4-D. Sectors of callus which differentiated shoot meristems (green spots) under the same 2,4-D concentration were selected from the calli subcultured 90 days after initiation. The selection was continued for about 2 years. Responses to 2,4-D between original and selected lines differed considerably, although differentiation was not generally seen in rice callus in the presence of 2 mg/l 2,4-D. After 180 days, calli of the selected line differentiated into numerous shoot-bud primordia and grew out new callus tissues under 2 mg/l 2,4-D concentration; the frequency of the differentiation exceeded 90%. On the other hand, no calli of non-selected line differentiated into shootbuds under 2 mg/l 2,4-D, and the frequency of the shootbud was only about 50% under lower 2,4-D concentration (0.1 mg/l). The pattern and activity of peroxidase isozyme varied markedly between calli of the selected and non-selected lines. First, two strong peroxidase bands which show fast mobility and one intermediate peroxidase band with slow mobility were detected only in the calli of selected line. Secondly, changes in band pattern of proteins separated by SDS-PAGE were observed. In the calli of selected line, there was a loss of the polypeptide bands with molecular weight of 24 and 42 K in the selected calli, but they were clearly present in the unselected line. The appearance of new peroxidase isozyme bands and loss of polypeptide bands, change in response to auxin and increased ability for shoot bud differentiation are closely correlated to each other.     

Experimental induction of vascular tissue in an undifferentiated plant callus

1. By the implantation of wedges containing indol-3-ylacetic acid and sucrose into blocks of undifferentiated bean-callus tissue it has been possible to induce the formation of xylem and phloem cells. 2. The differentiation has been investigated cytologically and measured chemically. 3. The optimum concentrations of the nutrients in the wedge, which gave differentiation closely resembling the vascular development found in the stem of the intact plant, was 0.1mg. of indol-3-ylacetic acid/l. and 2% sucrose. 4. The ratios of the xylose/arabinose concentrations of the tissues increased in the differentiated callus tissue compared with those of the undifferentiated tissue. A similar increase has been found for the ratios determined for xylem tissue compared with those for cambium. 5. The lignin content of the differentiated tissue compared with the undifferentiated tissue was greater in both the callus and stem tissue. 6. Chemical analysis of lignin showed that in the differentiated callus tissue it consisted of sub-units based on p-hydroxybenzaldehyde and vanillin. This was compared with the lignin obtained from undifferentiated callus tissue and that obtained from the tissues of the intact stem. 7. The results of the investigation have been discussed with reference to the problems of cell growth and differentiation and related to the changing patterns of the ultrastructure of the cell during its development.     

Specific Isozyme Marker of a Virus Resistant Barley Derived from Interspecies Cross Between Hordeum vulgare and H. bulbosum

A diploid barley cultivar "Supi 1" was crossed with a tetraploid Hordeum bulbosum “GBC141” to transfer the disease resistant traits. Eleven viable triploid F1 plants were produced by means of embryo rescue technique. The resulting triploid hybrids were backcrossed to diploid barley, and seven BC1 plants were obtained. One of the BC1 plants exhibited barley yellow mosaic virus (BaYMV) resistance when grown in the diseased nursery. Isozyme analysis of H. vulgate, H. bulbosum and their backcross hybrids were made via slab polyacrylamide gel electrophoresis technique. The primary results showed that zymogram variation could be obviously found between diploid barley "Supi 1' and tetraploid H. bulbosurn "GBC141”. A peroxidase isozyme (Rf=0.47) from H. bulbosum was detected in the peroxidase isozyme zymogram of young roots of backcross hybrid BC1-2. This peroxidase isozyme was related to the BaYMV resistance but the linkage relation will be determined by the genetic analysis of the F2 population in the future. The BaYMV resistant line of the backcross with isozyme marker is the important resource of barley disease-resistant breeding.     

Changes of peroxidase,esterase isozyme activities and some cell inclusions in regenerated vascular tissues after girdling inBroussonetia papyrifera (L.) Vent

The isozyme zymogram of peroxidase and esterase, and some cell inclusion contents were changed with the differentiation of regenerated vascular stem tissues after girdling inBroussnetia papyrifera (L.). Vent. Presence or disappearance of some peroxidase and esterase isozyme bands was related to wounding. Some isoperoxidase bands disappeared at the time of vascular tissue formation, but some esterase isozyme bands appeared in phloem or cambial regions as sieve-like elements or mature xylem were formed. The inclusion grains progressively disappeared with the formation of callus and initiation of vascular meristems. The cell inclusions reappeared during the formation of regenrated vascular tissues. Histochemical study indicated that the inclusion grains could be a complex compound of a protein mass encircling polysaccharide in the center with a proteinous nucleus.     

亚麻耐盐性愈伤组织的生理生化特性

以亚麻(双亚5号)耐盐愈伤组织为材,以同种亚麻普通愈伤组织为对照,分别经含0~250 mmol·L^-1 NaC1的培养基培养20 d后,比较含水量、MDA含量、POD酶活、SOD酶活、EST同工酶谱、POD同工酶谱及SOD同工酶谱。结果表明：亚麻耐盐组愈伤组织与对照组愈伤组织在多方面存在明显差异,前者含水量均高于后者;丙二醛含量也高于后者,但变化幅度不大;POD酶活均高于对照组;酯酶同工酶谱不同于对照组,酯酶酶活量均高于对照组;POD同工酶谱比对照组多一条带,且酶活均高于对照组;SOD同工酶谱与对照组一样多,但酶活均高于对照组,且平稳。这为进一步筛选亚麻耐盐突变细胞系奠定了良好的基础。     

Regulation of internodal lenght by peroxidase enzymes in grain sorghum

Summary A relationship between height genes (dw locus) and perioxidase was demonstrated by extracting and determining peroxidase specific activity in internode tissue from different height isogenic lines of sorghum Sorghum bicolor (L.) Moench]. Tall plants (2 dwarf) had less peroxidase per gram tissue than their short counterparts (3 dwarf); their F₁ offspring internodes were closer but had more peroxidase than the tall parent. Peroxidase in the F₂ offspring was inversely related to their height and followed a simply-inherited pattern similar to that for height.Among different tissues analyzed, peroxidase concentration in roots was higher than in leaves and internodes, whole internode higher than in pith, and seed embryo higher than in endosperm. Peroxidase activity of nonviable seeds was negligible.Isoelectric focusing provided a more detailed peroxidase zymogram than did gel electrophoresis. Differences in peroxidase bands among tall and short parental plants, F₁ and F₂ segregating groups all appear to be reflected by intensity differences rather than by position or number of bands.Activities of nitrate reductase and acid phosphatase did not correlate with height. That finding provides a control and suggests that peroxidase activity is not associated with height by chance but may have a functional relationship.Contribution no. 1628-j, Dept. of Agronomy and no. 188-j, Dept. of Biochemistry, and no. 962-j, Dept. of Grain Science and Industry, Kansas State University, Kansas Agricultural Experiment Station, Manhattan, Kansas 66506.     

POD同工酶在酸枣、枣分类中的应用

运用聚丙烯酰胺凝胶电泳（ＰＡＧＥ）技术,对来自不同产地的８３个酸枣类型（品种）,及３６个枣品种的叶片过氧化物酶（ＰＯＤ）同工酶扫描数据,进行了主因子分析和聚类分析研究。结果表明,运用距离系统的类平均法（ＵＰＧＭＡ）可将全部试材划分为六大类群和３个特殊型,且聚类结果与地理位置直接相关。此外,依同工酶带的有无,可将全部供试枣品种叶片ＰＯＤ同工酶合并为５种谱型,全部酸枣类型（品种）合并为２２种谱型。大马