Direct Observation of Reversible and Irreversible Stomatal Responses of Attached Sunflower Leaves to SO(2)

The effects of SO₂ on stomatal aperture of attached sunflower leaves were observed with a remote-control light microscope system that permitted continuous observation of stomatal responses over periods of several hours. The relationship between actual stomatal aperture and stomatal conductance, measured with a porometer, also was examined on leaves before and after exposure to SO₂.

A distinction between uninjured and injured regions was clearly visible on leaves after exposure to 1.5 microliters per liter SO₂ for less than an hour. During the exposure, the mean value of apertures for many stomata, which indicates stomatal conductance and transpiration rate, tended to decrease simultaneously in the uninjured and injured regions. However, the rate of decrease in the injured region was slower than that in the uninjured region because of a transient opening induced by water-soaking in the injured region. The transient opening was less common in stomata near veins and veinlets.

There was a good correlation between pore width and stomatal conductance measured with a porometer before exposure to SO₂. This correlation continued in leaves exposed to SO₂ until visible, irreversible injury occurred, but then it disappeared.

The results of these experiments indicate the necessity of continuous observation of individual stomata under the microscope to understand the effects of air pollutants such as SO₂ on stomatal behavior.

     

Effectiveness of intermittent light treatments on anthocyanin synthesis in dark-grown and light-pretreated seedlings

Differences in the extent of anthocyanin production between intermittent light treatments with short and long dark intervals between successive irradiations are more pronounced in dark-grown than in light-pretreated cabbage seedlings. This observation is consistent with the hypothesis, based on destruction kinetics data, that there might be two pools of phytochrome, a labile one and a stable one, present in different proportions in dark-grown and light-pretreated seedlings, and suggests that light-dependent changes of the stable to labile phytochrome ratio might be physiologically significant in the photoregulation of photomorphogenic responses.     

Recognition of Superior Photosynthetic Efficiency in the Field Using the CO(2)-Depletion Technique

The relationship between CO₂ exchange rate (CER) and growth of crops in the field was investigated in Connecticut Broadleaf tobacco (Nicotiana tabacum) using the CO₂-depletion technique. A particular objective was to determine if modest (i.e. <10%) varietal differences could be distinguished in mean CER. Statistical analysis of numerous CER values obtained over a wide range of irradiances during the course of the season indicated that differences of as little as 7% in the mean CER between varieties would be significant (n ~400). The usefulness of the CO₂-depletion technique in detecting modest differences in photosynthetic efficiency has thus been demonstrated. These results are discussed in relation to the prospects for introducing and detecting genetic traits which would diminish photorespiration and increase CER and growth.     

Light-dependent degradation of the Q(B)-protein in isolated pea thylakoids

The 32 000-dalton Q_B-protein of photosystem II (PS II) is rapidly damaged and removed from isolated pea thylakoids during incubation in the light resulting in a loss of photosynthetic electron flow through PS II. This in vitro photoinhibition is similar to that previously reported with intact Chlamydomonas cells. The damage occurs at a faster rate in vitro, however, due to the inability of isolated thylakoids to synthesize replacement Q_B-protein. The removal of the damaged Q_B-protein does not require any soluble components of the chloroplast stroma and is unaffected by the protease inhibitors phenyl-methylsulfonylfluoride or antipain. Unlike the effect of trypsin, no low mol. wt. membrane-bound or soluble fragments of the labelled Q_B-protein could be identified either by autoradiography or immunologically using polyclonal antibodies specific for the Q_B-protein. The lightinduced damage to the Q_B-protein (indicated by a loss of Q_B functional activity), preceded the removal of the protein from the membrane. We conclude that photodamage of the Q_B-protein generates a conformational change which renders the protein susceptible to attack by a highly efficient, intrinsic membrane protease.     

Synthesis, transport and localization of a nuclear coded 22-kd heat-shock protein in the chloroplast membranes of peas and Chlamydomonas reinhardi

The synthesis, transport and localization of a nuclear coded 22-kd heat-shock protein (HSP) in the chloroplast membranes was studied in pea plants and Chlamydomonas reinhardi. HSPs were detected in both systems by in vivo labeling and in vitro translation of poly(A)⁺RNA, using the wheat-germ and reticulocyte lysate systems. Heat-shock treatment of pea plants for 2 h at 42-45°C induces the expression of ˜10 nuclear coded proteins, among which several (18 kd, 19 kd, 22 kd) are predominant. A 22-kd protein is synthesized as a 26-kd precursor protein and is localized in a chloroplast membrane fraction in vivo. Following post-translational transport into intact chloroplasts in vitro of the 26-kd precursor, the protein is processed but the resulting 22-kd mature protein is localized in the chloroplast stroma. If, however, the in vitro transport is carried out with chloroplasts from heat-shocked plants, the 22-kd protein is preferentially transported to the chloroplast membrane fraction. In C. reinhardi the synthesis of poly(A)⁺RNAs coding for several HSPs is progressively and sequentially induced when raising the temperature for 1.5 h from 36°C to 42°C, while that of several preexisting RNAs is reduced. Various pre-existing poly(A)⁺RNAs endure in the cells at 42°C up to 5 h but are no longer translated in vivo, whereas some poly(A)⁻RNAs persist and are translated. As in pea, a poly(A)⁺RNA coded 22-kd HSP is localized in the chloroplast membranes in vivo, although it is translated as a 22-kd protein in vitro. The in vitro translated protein is not transported in isolated pea chloroplast which, however, processes and transports other nuclear coded chloroplast proteins of Chlamydomonas. The poly(A)⁺RNA coding for the 22-kd HSP appears after 1 h at 36°C. Its synthesis increases with the temperature of incubation up to 42°C, although it decreases after ˜2 h of heat treatment and the already synthesized RNA is rapidly degraded. The degradation is faster upon return of the cells to 26°C. None of the heat-induced proteins is identical to the light-inducible proteins of the chloroplast membranes.     

胎肝细胞输注与全胚注射液治疗再生障碍性贫血的机理探讨

本文对胎肝细胞输注或全胚注射液治疗再生障碍性贫血的可能机理作了一些实验性探讨。研究结果表明: 1.胎肝细胞在培养或解体过程中释放某些刺激红系造血的因子,有利于已经损伤的造血功能的恢复。 2.对正常小鼠注射无细胞胎肝制剂或全胚注射液后,骨髓红系细胞的分裂指数明显升高,骨髓中粒/红比值趋于降低,反映了骨髓中红系细胞增生活跃的状态。 3.对正常小鼠注射无细胞胎肝制剂或全胚注射液后,外周血网织红细胞和腹腔巨噬细胞的吞噬指数趋于平行增高,其增高程度和持续时间随注射次数的增加而加强。 小鼠注射无细胞胎肝制剂或全胚注射液后,巨噬细胞吞噬指数的增加,反映了巨噬细胞激活,这种作用除了提高机体的非特异性免疫功能,增强机体的抵抗力外,还可能通过巨噬细胞的活化,直接或间接地调控机体红系细胞的增殖,因而,对巨噬细胞在造血调控中的作用以及它在再生障碍性贫血发病机理研究中的意义提出了讨论。     

小鼠肝脏免疫抑制蛋白质(LISP)的分离纯化和鉴定

用硫酸铵分段盐析及DEAE-Sephadex A-50、羟磷灰石和CM纤维素等多种柱层析方法,从正常小鼠肝浸液中分离纯化出一种免疫抑制蛋白质(LISP)。在体外用微量该蛋白质就能强烈抑制小鼠T、B淋巴细胞对促有丝分裂原和同种异型抗原的增生反应。纯化的蛋白质在聚丙烯酰胺凝胶电泳(PACE)和等电聚焦(IEF)鉴定时均显示为一条区带,其等电点(pI)值在7.5—7.8范围。沉降系数利S_(20),w为5.39。Sephadex G-100凝胶层析测得LISP的分子量为78,000道尔顿。十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)提示LISP是由二个相同的亚基组成,亚基分子量为38,500道尔顿。LISP是一种既非糖蛋白又非脂蛋白的碱性蛋白质,对它的氨基酸组成也作了分析。