甘露醇对小麦细胞IAA氧化酶、过氧化物酶及GST活性的影响

研究了16 g/L甘露醇处理对小麦细胞再分化、细胞IAA氧化酶、IAA过氧化物酶、 谷胱甘肽转移酶和过氧化物酶活性的影响。结果表明,甘露醇处理使小麦细胞再生能力明显降低,引起细胞蛋白质含量、IAA过氧化物酶和GST活性明显降低;但使细胞IAA氧化酶和POD活性明显增高。     

甘露醇对小麦细胞IAA氧化酶过氧化物酶及GST活性的影响

研究了16g/L甘露醇处理对小麦细胞再分化,细胞IAA氧化酶,IAA过氧化酶,谷胱甘肽转移酶和过氧化物酶活性的影响,结果表明,甘露醇处理使小麦细胞再生能力明显降低,引起细胞蛋白质含量,IAA过氧化物酶和GSP活性明显降低,但使细胞IAA氧化格格不入产POD活性明显增高。     

试管棉纤维发育中IAA氧化酶和POD活性的变化(简报)

试管棉纤维发育过程中,ＩＡＡ氧化酶和过氧化物酶的离子型与壁结合的酶活性和纤维细胞的伸长呈负相关,可溶性酶的活性总趋势和离子型的一致。     

云芝多糖对巨噬细胞GPx基因表达的影响

细胞内存在两种谷胱甘肽过氧化物酶;硒谷胱甘肽过氧化物酶和非硒谷肽甘肽过氧化物酶,它们在保护细胞免受氧化损伤等过程中起重要作用。为揭示云芝多糖作用与细胞抗氧化酶的关系,采用酶活性测定,斑点杂交等方法,探讨云芝多糖对小鼠腹腔巨噬细胞过氧化物酶表达的影响。结果显示,腹腔注射云芝多糖可以提高小鼠腹腔巨噬细胞的两种过氧化物酶活性,并使其ｍＲＮＡ含量增加,应用阻断剂的研究发现,云芝多糖对巨噬细胞ＳｅＧＰｘ及Ｇ     

高压静电场对银杏愈伤组织生长的影响

银杏愈伤组织经１ ．０ｋＶ／ ｃｍ 强度的高压静电处理后, 愈伤组织生长速率提高, 超氧物歧化酶（ＳＯＤ） 活性和蛋白质及糖含量增加,过氧化物酶（ＰＯＤ） 和吲哚乙酸（ＩＡＡ） 氧化酶活性下降。实验表明,正高压静电场促进银杏愈伤组织细胞的生长,与ＨＶＥＦ 影响体内ＳＯＤ、ＰＯＤ 和ＩＡＡ 氧化酶活性以及蛋白质和糖含量的变化相关     

甲基磺酸乙酯对水稻萌发种子的生理效应

用不同浓度的EMS处理预浸泡的水稻种子,对水稻萌发种子细胞内呼吸代谢有明显的影响。低剂量的EMS刺激呼吸,提高细胞色素氧化酶和α-淀粉酶活性,从而促进了种子萌发和幼苗生长。较高剂量的EMS抑制呼吸以及与之有关的细胞色素氧化酶、α-淀粉酶和过氧化物酶等多种酶活性,科子发芽势和发芽率、幼苗生长高度和根系活力也随之下降。实验结果表明,EMS对细胞呼吸以及上述三种酶类活性的影响是导致水稻种子发芽率和幼苗生长高度、根系活力改变的重要生理原因。     

间苯二酚、水杨酸对绿豆下胚轴不定根形成的作用

２０—１００ｍｇＬ（－１）间苯二酚能明显地促进绿豆下胚轴不定根的形成,与２０ｍｇＬ（－１）ＩＢＡ混合处理具加成效应,其作用在于降低生根初期ＩＡＡ氧化酶和多酚氧化酶活性．１０—１００ｍｇＬ（－１）水杨酸抑制下胚轴不定根的形成,随处理浓度的加大,对生根数目、生根范围和根重的抑制作用增加．水杨酸处理后１－３ｄ,能提高ＩＡＡ氧化酶和多酚氧化酶的活性．     

间苯二酚、水杨酸对绿豆下胚轴不定根形成的作用

２０—１００ｍｇＬ（－１）间苯二酚能明显地促进绿豆下胚轴不定根的形成,与２０ｍｇＬ（－１）ＩＢＡ混合处理具加成效应,其作用在于降低生根初期ＩＡＡ氧化酶和多酚氧化酶活性．１０—１００ｍｇＬ（－１）水杨酸抑制下胚轴不定根的形成,随处理浓度的加大,对生根数目、生根范围和根重的抑制作用增加．水杨酸处理后１－３ｄ,能提高ＩＡＡ氧化酶和多酚氧化酶的活性．     

低温和PEG预处理对小麦愈伤组织形成及IAA氧化的影响

研究了低温和ＰＥＧ预处理对小麦成熟胚愈伤组织形成及ＩＡＡ氧化的影响。结果表明,低温和ＰＥＧ预处理促进两种小麦成熟胚愈伤组织形成,但对其ＩＡＡ氧化的影响不同;其中低温引起‘郑引１号’ＩＡＡ氧化酶活性降低,但对‘保７０５９’的影响不大;而ＰＥＧ使‘保７０５９’的ＩＡＡ氧化酶活性增加,但对‘郑引１号’无明显影响;两种处理均使两种小麦ＩＡＡ过氧化物酶活性降低。     

不同预处理对大麦花药3种内源激素含量和过氧化物酶活性的影响

研究了大麦（Ｈｏｒｄｅｕｍ ｖｕｌｇａｒｅ Ｌ．）花药－花粉培养中不同预处理对花药内源激素（ＡＢＡ,ＩＡＡ,ＩＰＡ）含量和过氧化物酶活性的影响。结果表明：１． 经甘露醇预处理不同天数,同一种基因型的３种内源激素的变化和不同基因型的同一种内源激素的变化规律十分相似,均是在预处理初期含量急剧增加,最高值在０．５或１ ｄ 处。以后开始逐渐下降;最后,保持在一定的水平上。２． 在甘露醇预处理过程中,两种基因型花药过氧化物酶活性的变化规律也十分相似。在预处理前期（从开始到第３天）活性呈直线上升,第３天达到最大值。从第３天到第５天活性减弱。最后,活性又开始增强。３． 在低温预处理过程的初期（２～５ ｄ） 两种基因型花药过氧化物酶活性都出现第一个小峰。在第１４天（“Ｈａｒｒｉｎｇｔｏｎ”）或第２１天（“Ｉｇｒｉ”）又出现第二个峰值,但后者较高。在预处理的后期（从第２８天到第３５天）两种基因型花药过氧化物酶的活性又呈现上升的趋势。同甘露醇预处理后期变化一致     

Influence of supplemental ultraviolet-B on indoleacetic acid and calmodulin in the leaves of rice (Oryza sativa L.)

IR68 and Dular rice cultivars were grown under ambient, 13.0 (simulating 20% ozone depletion) and 19.1 (simulating 40% ozone depletion) kJ m^-2 day^-1 of biologically effective ultraviolet-B (UV-B_BE) for 4 weeks. Plant height and leaf area were significantly reduced by supplemental UV-B_BE radiation. Greater reduction in leaf area than of plant height was observed. A decrease in indole-3-acetic acid (IAA) content and increase in peroxidase and IAA oxidase activities of UV-B treated plants in both cultivars were observed compared with ambient control. Calmodulin content also decreased after plants were treated with high supplemental UV-B for two weeks and medium UV-B treatment for four weeks. The results indicated that peroxidase and IAA oxidase activities in rice leaves were stimulated by supplemental UV-B, resulting in the destruction of IAA which in turn may cause inhibition of rice leaf growth. Although the mechanism is unclear, calmodulin is most likely involved in leaf growth.     

营养胁迫诱导的油菜子叶衰老过程中IAA氧化酶和细胞分裂素氧化酶活性的变化

以离体油菜子叶为材料,研究了营养胁迫诱导的子叶衰老过程中吲哚乙酸氧化酶(IAA氧化酶)和细胞分裂素氧化酶活性的变化。在光照条件下,离体子叶在不含任何无机元素的0．8％的琼脂中培养9d后,出现明显的衰老迹象(叶绿素含量下降,丙二醛含量上升),15d时完全死亡。在营养胁迫诱导的衰老过程中,IAA氧化酶和细胞分裂素氧化酶的活性表现出相似的变化趋势,在诱导处理1d时,两种酶的活性均比处理前有明显下降,之后又随着衰老进程逐渐上升。IAA氧化酶活性在诱导处理11d时达到高峰,超出处理前30％以上;比对照高出1倍以上;而细胞分裂素氧化酶活性在诱导处理13d时达到高峰,比对照高出3倍以上,也超过了处理前的水平。衰老过程中IAA氢化酶和细朐分裂素氧化酶活性的上升可能是导致内源激素含量下降的重要原因。     

Cytokinin control in subcellular localization of indoleacetic acid oxidase and peroxidase

IAA oxidase and peroxidase were found in all subcellular fractions of tobacco callus cells. The bound and cytoplasmic fractions differed greatly in IAA oxidase/peroxidase ratio and in isoperoxidase composition. The IAA oxidase/peroxidase ratio was particularly high in the plasma membrane-rich fraction. Kinetin had profound effects on IAA oxidase and peroxidase. The appearance of fast migrating isoperoxidases in response to 0·2 μM kinetin was found only in cytoplasmic, plasma membrane and ribosome-rich fractions; a high concentration of kinetin inhibited their formation. High kinetin concentrations also lowered the specific activity of IAA oxidase and peroxidase in all subcellular fractions, but the effect was much greater on peroxidase than on IAA oxidase, thus resulting in a drastic increase in IAA oxidase/peroxidase ratio. Evidently the activities of IAA oxidase and peroxidase were not equivalent and should be considered separately.     

棉纤维细胞伸长生长与过氧化物酶和IAA氧化酶的关系

棉纤维细胞于开花当天从棉胚珠表皮上发生,随即开始伸长生长,星S型生长曲线。棉纤维细胞的可溶性蛋白、过氧化物酶活性和IAA氧化酶活性同伸长生长的关系不大;而离子型结合的细胞壁蛋白质含量、过氧化物酶活性和IAA氧化酶活性同棉纤维细胞的伸长生长关系较大,表现在棉纤维细胞快速伸长期活性较低,而在伸长生长停止时出现活性高峰,同棉纤维细胞的伸长生长有负相关现象。     

Hydrogen peroxide is necessary for abscisic acid-induced senescence of rice leaves

The role of H₂O₂ in abscisic acid (ABA)-induced rice leaf senescence is investigated. ABA treatment resulted in H₂O₂ production in rice leaves, which preceded the occurrence of leaf senescence. Dimethylthiourea, a chemical trap for H₂O₂, was observed to be effective in inhibiting ABA-induced senescence, ABA-increased malondialdehyde (MDA) content, ABA-increased antioxidative enzyme activities (superoxide dismutase, ascorbate peroxidase, glutathione reductase and catalase), and ABA-decreased antioxidant contents (ascorbic acid and reduced glutathione) in rice leaves. Diphenyleneiodonium chloride (DPI) and imidazole (IMD), inhibitors of NADPH oxidase, and KCN and NaN₃, inhibitors of peroxidase, prevented ABA-induced H₂O₂ production, suggesting NADPH oxidase and peroxidase are H₂O₂-generating enzymes in ABA-treated rice leaves. DPI, IMD, KCN, and NaN₃ also inhibited ABA-promoted senescence, ABA-increased MDA contents, ABA-increased antioxidative enzyme activities, and ABA-decreased antioxidants in rice leaves. These results suggest that H₂O₂ is involved in ABA-induced senescence of rice leaves.     

LaCl3对水稻幼苗生长、两种酶的活性及根尖细胞有丝分裂的影响

用不同浓度的ＬａＣｌ３处理水稻种子,结果表明,当ＬａＣｌ３浓度在０．１～１．０ｍｇ／Ｌ时可提高发芽率,促进幼苗生长、根尖细胞有丝分裂指数明显上升,过氧化物酶和吲哚乙酸氧化酶活性下降。但随ＬａＣｌ３浓度提高,则抑制幼苗生长,细胞有丝分裂减缓,两种酶活性均增加。且随浓度提高,其作用效果急剧加大。     

Changes in peroxidase and IAA oxidase activities during cell elongation in Phaseolus hypocotyls

Cytoplasmic and salt-extracted peroxidase and IAA oxidase activities were studied in Phaseolus vulgaris hypocotyls treated with gibberellic acid (GA, 200 μM), naphthyl acetic acid (NAA, 100 μM) and distilled water control (DW). Peroxidase activity was assayed with four hydrogen donors during the initial phase of hypocotyl elongation. Though peroxidase activity showed a decreasing trend with time in all the hydrogen donors studied; considerable variation with different hydrogen donors was observed. NAA had maximum peroxidase activity as compared to DW or GA treatment. The activity showed a clear inverse correlation with hypocotyl growth. IAA oxidase activity showed a similar trend with growth as peroxidase activity. A highly significant correlation was observed between peroxidase and IAA oxidase activities and high molecular weight xyloglucan content (P<0.001). Finally, the possible role of peroxidase and IAA oxidase activities in hypocotyl elongation growth is discussed.     

The Effect of Pseudomonas putida Colonization on Root Surface Peroxidase

Increased activities of peroxidase and indole 3-acetic acid (IAA) oxidase were detected on root surfaces of bean (Phaseolus vulgaris) seedlings colonized with a soil saprophytic bacterium, Pseudomonas putida. IAA oxidase activity increased over 250-fold and peroxidase 8-fold. Enhancement was greater for 6-day-old than for 4- or 8-day-old inoculated plants No IAA oxidase or peroxidase activities were associated with the bacterial cells. Native polyacrylamide gel electrophoresis demonstrated that washes of P. putida-inoculated roots contained two zones of peroxidase activity. Only the more anodic bands were detected in washes from noninoculated roots. Ion exchange and molecular sizing gel chromatography of washes from P. putida-colonized roots separated two fractions of peroxidase activity. One fraction corresponded to the anodic bands detected in washes of P. putida inoculated and in noninoculated roots. A second fraction corresponded to the less anodic zone of peroxidase, which was characteristic of P. putida-inoculated plants. This peroxidase had a higher IAA oxidase to peroxidase ratio than the more anodic, common enzyme. The changes in root surface peroxidases caused by colonization by a saprophytic bacterium are discussed with reference to plant-pathogen interactions.