Physiological and isotopic aspects of photosynthesis in peperomia

Physiological and isotopic aspects of several Peperomia species were investigated. All but one species had C₃-like stomatal behavior, in that stomata were open during the day and closed during the night. In these species, most atmospheric CO₂ uptake occurred during the day. Concurrent with this stomatal behavior, there were Crassulacean acid metabolism-like acid fluctuations in most species. Carbon and hydrogen isotope ratios of cellulose nitrate from Peperomia reflect their physiological behavior. The δ¹³C values of cellulose nitrate from Peperomia species were similar to values observed in C₃ plants and consistent with the daytime uptake of exogeneous CO₂ via the C₃ photosynthetic pathway. The δD values of cellulose nitrate from Peperomia species approach those of Crassulacean acid metabolism plants. These elevated δD values are caused by fractionations occurring during biochemical reactions and not as a consequence of water relations.     

人体肝癌细胞系(SMMC-7721)的糖皮质激素受体以及糖皮质激素对酪氨酸转氨酶的诱导

本文以[~3H]Dex为配体,采用完整细胞GCR和核特异结合百分率的测定方法检测了人体肝癌细胞系(SMMC-7721)的GCR。实验表明,该细胞具有高亲和力、低容量、能与GC进行特异结合的Dex结合部位,该结合部位与[~3H]Dex结合后可向核内转位,因而具备了作为GCR的基本条件。但该细胞的GCR与正常细胞的GCR相比较亦有些差别,GC与受体结合后不能诱导TAT的生成。本文对上述改变的可能机理进行了讨论。     

癌症新型的诊疗靶点－APOBEC

APOBEC（“载脂蛋白质B mRNA编辑催化多肽”）是一类进化保守的胞苷脱氨酶家族。在人体内,已知含有保守的DNA胞嘧啶脱氨酶结构域的基因共有11种,包括AID、APOBEC1、APOBEC2、APOBEC3基因家族APOBEC3A、APOBEC3B、APOBEC3C、APOBEC3DE、APOBEC3F、APOBEC3G、APOBEC3H（分别称为A3A、A3B、A3C、A3D、A3F、A3G和A3H）和APOBEC4。APOBEC利用其脱氨酶活性通过与RNA和/或DNA结合,催化mRNA或使DNA中的胞嘧啶核苷酸转变为尿嘧啶,或者胞嘧啶核苷酸转变为胸腺嘧啶核苷酸,进而完成各自不同的功能。目前研究发现,AID及APOBEC3（A3s）的7种脱氨酶在人类的天然免疫和适应性免疫防御过程中发挥重要的作用,且在口腔癌,肺癌（腺癌和鳞状细胞癌）,结直肠癌和乳腺癌等的诊疗过程中具有重要的潜在应用价值。AID可以通过将胞嘧啶脱氨基成尿嘧啶,来启动SHM (体细胞超突变)和CSR (类别转换重组),进而在抗体多样性方面发挥作用。它的异常表达能够使B细胞淋巴瘤等恶性肿瘤的发病频率显著增加。而A3A、A3B通过胞嘧啶到尿嘧啶转换,以及自身表达量上调而在乳腺癌和肺癌诊疗中起作用。A3G通过APOBEC3G/miR 29/MMP2为了解结直肠癌肝转移和开发治疗晚期结肠癌的有效疗法开辟了新的途径。综上所述,本文将以AID,A3A,A3B,A3G为例子,对APOBEC在癌症诊断和治疗方面的应用进行综述,以期为进一步药物研究和临床应用等提供参考。     

杂交水稻干种子内存在α-淀粉酶

水稻种子萌发过程中的α-淀粉酶由盾片上皮细胞合成而运入胚乳(Okamoto等1979,1980),或由种胚分泌的赤霉素(GA_3)的触发作用在糊粉层中诱导形成(Murakami 1966,Ogawa 1966,Tangka等1970)。但迄今尚未见谷类作物干胚乳中预存有α-淀粉酶的报道(Daussant等1983,Tanaka等     

Variable Photosynthetic Metabolism in Leaves and Stems of Cissus quadrangularis L

By measuring titratable acidity, gas exchange parameters, mesophyll succulence, and ¹³C/¹²C ratios, we have shown that Cissus quadrangularis L. has C₃-like leaves and stems with Crassulacean acid metabolism (CAM). In addition, the nonsucculent leaves show the diurnal fluctuations in organic acids termed recycling despite the fact that all CO₂ uptake and stomatal opening occurs during the day. Young succulent stems have more C₃ photosynthesis than older stems, but both have characteristics of CAM. The genus Cissus will be a fruitful group to study the physiology, ecology, and evolution of C₃ and CAM since species occur that exhibit characteristics of both photosynthetic pathways.     

Shifts in the Carbon Metabolism of Xerosicyos danguyi H. Humb. (Cucurbitaceae) Brought About by Water Stress : II. Enzymology

Xerosicyos danguyi Humbert (Cucurbitaceae) is a leaf succulent endemic to Madagascar. Under well-watered conditions, the plant exhibited Crassulacean acid metabolism (CAM) but shifted to a dampened form of CAM, CAM-idling, when subjected to water stress. The purpose of this investigation was to examine the effects of a shift in carbon metabolism on phosphoenolpyruvate carboxylase and on NADP-malic enzyme in X. danguyi. Experiments were conducted to determine the diurnal patterns of enzyme activity and pH optima of both enzymes, as well as the approximate molecular mass, kinetic patterns, malate inhibition, and glucose-6-phosphate stimulation of phosphoenolpyruvate carboxylase. The two enzymes extracted from well-watered and water-stressed plants were similar in most parameters investigated; thus, CAM-idling appeared to be only a dampened form of CAM photosynthesis.     

CAM-idling in Hoya carnosa (Asclepiadaceae)

In the leaf succulent Asclepiad Hoya carnosa (L.) R. Br., CAM photosynthesis occurred under well-watered conditions, as characterized by diurnal gas exchange and changes in titratable acidity. Following 10–12 days of severe water stress, the plants shifted from CAM to a modified CAM-idling mode of metabolism. CAM-idling was characterized by complete or almost complete stomatal closure accompanied by CAM-like diurnal changes in titratable acidity. H. carnosa plants maintained this CAM-idling mode of photosynthesis for at least 8 weeks. Upon reirrigation, the plants returned to the original CAM mode within 1 week. These results suggested that CAM-idling is a reversible, intermediate form of sustained metabolism which enables plant survival under conditions of extended drought.This work was supported in part by NSF Grant PCM 8200366 and in part by the Science and Education Administration of the United States Department of Agriculture under Competitive Grant 5901-0420-8-0018-0.     

Bovine lens aldehyde dehydrogenase. Kinetics and mechanism.

Bovine lens cytoplasmic aldehyde dehydrogenase exhibits Michaelis-Menten kinetics with acetaldehyde, glyceraldehyde 3-phosphate, p-nitrobenzaldehyde, propionaldehyde, glycolaldehyde, glyceraldehyde, phenylacetylaldehyde and succinic semialdehyde as substrates. The enzyme was also active with malondialdehyde, and exhibited an esterase activity. Steady-state kinetic analyses show that the enzyme exhibits a compulsory-ordered ternary-complex mechanism with NAD+ binding before acetaldehyde. The enzyme was inhibited by disulfiram and by p-chloromercuribenzoate, and studies with with mercaptans indicated the involvement of thiol groups in catalysis.     

Chemical basis of host selection and plant resistance in oligophagous insects

Recent investigations of the Colorado potato beetle and the alfalfa weevil reveal many similarities in their modes of host selection. Many plant chemicals influence their behavioral responses and physiological processes. Chemical stimuli influencing host finding and acceptance or rejection of plants include attractants, repellents, sign stimulants, feeding stimulants and deterrents. Both species are highly sensitive to deterrent chemicals present in many plants. Feeding stimulants are indispensible for these insects and are supplied by both primary nutrients (i.e. sugars, amino acids, phospholipids and potassium salts) and secondary plant substances. The important role played by different plant chemicals in host selection and plant resistance is discussed.

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Zusammenfassung Neuere Untersuchungen am Kartoffelkäfer und am Luzerneblattnager förderten viele Übereinstimmungen in der Art ihrer Wirtswahl zu Tage. Viele Pflanzenstoffe beeinflussen ihre Verhaltensweisen und physiologische Prozesse. Chemische Reize, welche die Auffindung des Wirtes, Annahme oder Ablehnung der Pflanzen beeinflussen, umfassen Attractants, Repellents, Signalstoffe, Fraß-Stimulatoren und Abschreckstoffe. Beide Arten sind hochempfindlich gegenüber abschreckenden Verbindungen in vielen Pflanzen. Fraß-Stimulatoren sind für beide Insekten unabdingbar notwendig und werden sowohl von primären Nährstoffen (wie Zucker, Aminosäuren, Phospholipiden und Natriumsalzen) wie von sekundären Pflanzenstoffen gestellt. Die bedeutsame Rolle, welche Pflanzenstoffe bei der Wirtswahl und der Resistenz der Pflanzen spielen, wird diskutiert.

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Journal paper No. ...., Utah Agricultural Experiment Station, Logan, Utah.