Calcium-induced formation of chlorophyll b and light-harvesting chlorophyll a/b-protein complex in cucumber cotyledons in the dark

Dark-grown cucumber seedlings were exposed to intermittent light (2 min light and 98 min dark) and then cotyledons were incubated with 50 mM CaCl₂ in the dark. Chlorophyll (Chl) a was selectively accumulated under intermittent light and Chl b was accumulated during the subsequent dark incubation with CaCl₂. The change in chlorophyll-protein complexes during Chl b accumulation induced by CaCl₂ in the dark was investigated by SDS-polyacrylamide gel electrophoresis. Chlorophyll-protein complex I and free chlorophyll were major chlorophyll-containing bands of the cotyledons intermittently illuminated 10 times. When these cotyledons were incubated with CaCl₂ in the dark, the light-harvesting Chl a/b-protein complex was formed. When the number of intermittent illumination periods was extended to 55, small amounts of Chl b and light-harvesting Chl a/b-protein complex were recognized at the end of intermittent light treatment, and these two pigments were further increased during the subsequent incubation of the cotyledons with CaCl₂ in the dark compared to water controls.     

Lipophorin as a yolk protein precursor in the mosquito, Aedes aegypti

We examined expression of the lipophorin (Lp) gene, lipophorin (Lp) synthesis and secretion in the mosquito fat body, as well as dynamic changes in levels of this lipoprotein in the hemolymph and ovaries, during the first vitellogenic cycle of females of the yellow fever mosquito, Aedes aegypti. Lipophorin was purified by potassium bromide (KBr) density gradient ultracentrifugation and sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE). Polyclonal antibodies were produced against individual Lp apoproteins, apolipoprotein-I (apoLp-I) and apolipoprotein-II (apoLp-II), with molecular weights of 240 and 75 kDa, respectively. We report here that in the mosquito A. aegypti, Lp was synthesized by the fat body, with a low level of the Lp gene expression and protein synthesis being maintained in pre- and postvitellogenic females. Following a blood meal, the Lp gene expression and protein synthesis were significantly upregulated. Our findings showed that the fat body levels of Lp mRNA and the rate of Lp secretion by this tissue reached their maximum at 18 h post-blood meal (PMB). 20-Hydroxyecdysone was responsible for an increase in the Lp gene expression and Lp protein synthesis in the mosquito fat body. Finally, the immunocytochemical localization of Lp showed that in vitellogenic female mosquitoes, this protein was accumulated by developing oocytes where it was deposited in yolk granules.     

Oscillation and regulation of proline content by P5CS and ProDH gene expressions in the light/dark cycles in Arabidopsis thaliana L

The fluctuation of proline content, and protein and mRNA levels of delta1-pyrroline-5-carboxylate synthetase (P5CS) and proline dehydrogenase (ProDH), both of which are involved in proline biosynthesis and degradation, in the shoots of Arabidopsis grown in light/dark cycles were demonstrated under salt-stressed and unstressed conditions. Proline content, as well as proteins and mRNAs of these enzymes, clearly oscillated in the light/dark cycles under the stressed and unstressed conditions. A reciprocal relationship between P5CS and ProDH was observed. Protein levels of P5CS and ProDH were well synchronized with their mRNA levels, although the fluctuation of protein levels was not as significant as that of their mRNA levels. Both mRNA and protein levels of the two enzymes as well as the proline content did not oscillate under the continuous light or the dark conditions. Thus, P5CS and ProDH gene expressions seemed to be involved in light irradiation. Moreover, relative water content (RWC) in the plants oscillated in the light/dark cycles. The fluctuations of proline content in shoot reversely responded to that of RWC. It is suggested that the expression of two genes responds sensitively to a subtle change of cellular water status, and accumulated proline keeps the osmotic balance between cells and the outer environment.     

Characterization of Chlamydomonas mutants defective in the H subunit of Mg-chelatase

Two chlorophyll-deficient mutants of Chlamydomonas reinhardtii, chl1 and brs-1, are light sensitive and, when grown heterotrophically in the dark, accumulate protoporphyrin IX and exhibit yellow/orange pigmentation. The lesions in both mutants were mapped to the gene (CHLH) for the plastid-localized H subunit of the heterotrimeric magnesium chelatase that catalyzes the insertion of magnesium into protoporphyrin IX. The genetic defects in the mutants could be assigned to +1 frameshift mutations in exon 9 (chl1) and exon 10 (brs-1) of the CHLH gene. In both mutants, the H subunit of magnesium chelatase was undetectable, but, as shown for chl1, the steady-state levels of the I and D subunits were unaltered in comparison to wild type. The CHLH gene exhibits marked light inducibility: levels of both the mRNA and the protein product are strongly increased when cultures are shifted from from the dark into the light, suggesting that this protein may play a crucial role in the light regulation of chlorophyll biosynthesis.     

Effect of Light Quality on the Circadian Expression of Nitrate Reductase in the Red Macroalga Gracilaria tenuistipitata

A circadian rhythm in the activity of nitrate reductase (NR: EC 1.6.6.1) isolated from the marine red algae Gracilaria tenuistipitata is shown to be attributable to the daily oscillation of protein levels. The experiments reported here indicate that light quality has differential effects over NR expression. In extracts of algae grown under white light : dark, red light : dark and blue light : dark cycle, the activity of NR peaks during photophase, as does photosynthesis. Staining with a monoclonal antibody (NR10), raised against NR purified from Porphyra yezoensis, shows that the amount of protein changes by a factor of about 20, with a maximum occurring during photophase when algae are submitted to white and blue light. Red light changes the circadian rhythm of NR protein levels and also inhibits its night degradation. Illumination with blue light is able to restore the NR activity as well as its protein levels only when the light irradiance was the same of the white light. Surprisingly, the red light promoted 40% induction on NR activity under the same conditions.     

siRNA沉默Myh3基因抑制C2C12细胞糖酵解

肌球蛋白重链3(myosin heavy chain 3,Myh3)基因为肌肉细胞分化的标志基因,调节肌肉细胞能量的利用,但其是否会影响肌肉细胞不同状态下的糖酵解过程尚鲜有报道。本文以成肌和成脂分化不同阶段的小鼠C2C12细胞为模型,利用qRT-PCR方法研究Myh3与糖酵解相关基因Pkm(M-type pyruvate kinse)、Prkag3(protein kinase adenosine monophosphate-activated γ3-subunit)和Gsk3β(glycogen synthase kinase-3β)的表达模式。发现在C2C12细胞成肌分化过程中,Myh3与糖酵解基因Prkag3和Pkm的相对表达趋势基本一致,都呈现相对表达水平先上升,分化第2 d达到峰值,之后下降的趋势;糖原合酶抑制基因Gsk3β的表达趋势相对平稳。而在C2C12细胞成脂分化过程中,Myh3依然与糖酵解基因Prkag3和Pkm的相对表达趋势基本一致,相对表达量逐渐上升,在分化第8 d达到最高值;糖原合酶抑制基因Gsk3β的表达保持稳定状态。在C2C12细胞成肌分化状态下,qRT-PCR和Western 印迹检测干扰Myh3对细胞糖酵解相关基因Pkm、Prkag3和Gsk3β mRNA和蛋白质表达的影响。结果显示,干扰Myh3后,糖酵解基因Pkm和Prkag3的mRNA表达量极显著降低(P<0.01),糖原合酶抑制基因Gsk3β的mRNA表达无明显变化(P>0.05);Myh3干扰组中Myh3和Pkm的蛋白质水平显著低于空白组和NC组细胞。在C2C12细胞成脂分化状态下,干扰Myh3,糖原合酶抑制基因Gsk3β和糖酵解基因Prkag3的mRNA表达量极显著升高(P<0.01),糖酵解基因Pkm的mRNA表达下降;Myh3干扰组中Myh3和Pkm的蛋白质水平也低于空白组和NC组细胞。综合以上研究,C2C12细胞成肌和成脂状态下糖酵解水平存在明显差异,Myh3与酵解基因的表达模式相似,进一步研究发现,干扰Myh3可以抑制C2C12细胞成肌状态下的糖酵解,不影响糖原合成。与成肌状态不同,在C2C12细胞成脂状态下干扰Myh3,抑制了糖原合成和糖酵解。     

髓样分化蛋白2基因沉默对高糖诱导的大鼠心肌细胞增殖抑制、凋亡及炎症反应的影响*

目的:研究髓样分化蛋白2(MD2)基因沉默对高糖(HG)诱导的大鼠心肌细胞增殖抑制、凋亡及炎症反应的影响及其机制。方法:体外大鼠心肌细胞系H9C2细胞随机分为4组(n=3):LG组、HG组、HG + NC组、HG + si-MD2组,分别转染MD2基因小干扰RNA(si-MD2)或阴性对照24 h后进行低糖或高糖处理48 h。RT-qPCR检测MD2及细胞内炎症细胞因子TNF-α、IL-1β、IL-6的表达水平,MTS法、流式细胞术检测细胞增殖能力、细胞周期和细胞凋亡率,Western blot法检测细胞内相关蛋白的表达水平及磷酸化水平。结果:转染si-MD2后,H9C2细胞中MD2的表达水平明显下降(P＜0.01)。与低糖(LG)组比较,高糖处理后的H9C2细胞中TNF-α、IL-1β、IL-6的mRNA水平显著升高,细胞增殖能力下降并发生G1期阻滞,细胞凋亡率和Cleaved Caspase-3蛋白水平升高(P＜ 0.01)。而MD2基因沉默可拮抗高糖对H9C2细胞增殖、细胞周期、凋亡及细胞中TNF-α、IL-1β、IL-6 mRNA水平的影响(P＜0.05)。Western blot测定结果表明高糖处理后的H9C2细胞中细胞外信号调节激酶(ERK1/2)、P38丝裂原活化蛋白激酶(P38 MAPK)和C-Jun氨基末端激酶(JNK)蛋白的磷酸化水平明显升高,而MD2基因沉默可抑制高糖诱导下的ERK1/2、P38 MAPK和JNK蛋白激活(P＜0.01)。结论:MD2基因沉默可能通过抑制ERK、P38 MAPK和JNK信号通路的激活来减少高糖诱导的大鼠心肌细胞炎症细胞因子表达,减少心肌细胞凋亡,促进细胞增殖。     

Light enhances the unfolded protein response as measured by BiP2 gene expression and the secretory GFP-2SC marker in Arabidopsis

Disruption of the protein-folding capacity in the ER induces the accumulation of unfolded proteins and ER stress, which activate the unfolded protein response (UPR). Although UPR has been extensively studied in yeast and mammals, much less is known about UPR and its relationship with light in plants. Here, we examined the effects of chemically induced UPR and light on a molecular marker of UPR (binding protein, BiP2, gene expression) and a secretory green fluorescent protein marker (GFP-2SC) that is trafficked from the ER to vacuole in Arabidopsis thaliana (L). UPR, which was induced by DTT and tunicamycin (TM), increased Bip2 mRNA levels and decreased the levels of microsomal and vacuolar forms of GFP-2SC. Treatment with protease inhibitors lessened the effects of DTT and TM on GFP-2SC, indicating the decrease in GFP levels partially involved protein degradation. Light treatments synergistically enhanced the decrease in GFP levels in both the ER and vacuole and induced the expression of UPR marker genes for BiP2 and protein disulfide isomerase (PDI, EC 5.3.4.1). DTT and TM treatments required light for maximal induction of the UPR. Light-induced UPR occurred during the daily dark to light cycle and when dark-adapted plants were exposed to light. We propose that light activates the UPR to increase the protein folding capacity in the ER to accommodate an increase in translation during dark to light transitions.     

Circadian clock gene expression in the coral Favia fragum over diel and lunar reproductive cycles

Natural light cycles synchronize behavioral and physiological cycles over varying time periods in both plants and animals. Many scleractinian corals exhibit diel cycles of polyp expansion and contraction entrained by diel sunlight patterns, and monthly cycles of spawning or planulation that correspond to lunar moonlight cycles. The molecular mechanisms for regulating such cycles are poorly understood. In this study, we identified four molecular clock genes (cry1, cry2, clock and cycle) in the scleractinian coral, Favia fragum, and investigated patterns of gene expression hypothesized to be involved in the corals' diel polyp behavior and lunar reproductive cycles. Using quantitative PCR, we measured fluctuations in expression of these clock genes over both diel and monthly spawning timeframes. Additionally, we assayed gene expression and polyp expansion-contraction behavior in experimental corals in normal light:dark (control) or constant dark treatments. Well-defined and reproducible diel patterns in cry1, cry2, and clock expression were observed in both field-collected and the experimental colonies maintained under control light:dark conditions, but no pattern was observed for cycle. Colonies in the control light:dark treatment also displayed diel rhythms of tentacle expansion and contraction. Experimental colonies in the constant dark treatment lost diel patterns in cry1, cry2, and clock expression and displayed a diminished and less synchronous pattern of tentacle expansion and contraction. We observed no pattern in cry1, cry2, clock, or cycle expression correlated with monthly spawning events suggesting these genes are not involved in the entrainment of reproductive cycles to lunar light cycles in F. fragum. Our results suggest a molecular clock mechanism, potentially similar to that in described in fruit flies, exists within F. fragum.     

Differential Expression of mRNA and Protein Encoding Retinal and Pineal S-Antigen During the Light/Dark Cycle

S-Antigen is a soluble cell protein unique to the retina and pineal gland. In the former, it is a well-characterized molecule that participates in light-induced signal transduction in photoreceptor cells. In the latter, the functional role is presently not known. The expression of S-antigen and its mRNA was examined in the rat retina and pineal gland throughout the diurnal cycle and with light interruption of the dark cycle. A cDNA for rat S-antigen was isolated from a pineal gland library to examine the mRNAs. A 1.7-kb mRNA for S-antigen was observed in both the pineal gland and the retina. Retinal S-antigen mRNA was expressed throughout the diurnal cycle and increased with light interruption of the dark cycle. In contrast, pineal gland S-antigen mRNA levels were detectable only during the dark and were absent preceding and during light. The phenotypic expression of immunoreactive S-antigen, identified with two S-antigen monoclonal antibodies (MAbs), MAb A9C6 and MAb C10C10, was analyzed by sodium dodecyl sulfate (SDS)-polyacrylamide gel (PAGE) and isoelectric focusing (IEF) electrophoresis. Immunoblot analysis of gels after SDS-PAGE revealed a single 46-kDa protein in retina. In contrast, two bands of approximately 43 and 46 kDa were identified in the pineal gland. Immunoblots of the retinal extracts separated by IEF electrophoresis revealed five S-antigen isomers, which vary quantitatively throughout the diurnal cycle and when light interrupted the dark cycle. Immunoblots of the pineal gland samples separated by IEF electrophoresis indicated that the pineal gland possesses four pineal gland-specific forms of S-antigen in addition to the five forms present in the retina. The differences observed in the mRNA and protein analyses suggest tissue-specific structural components for S-antigen in the retina and pineal gland that are not regulated in the same manner.     

Photosynthetic Genes of Petunia (Mitchell) Are Differentially Expressed during the Diurnal Cycle

The petunia (Petunia [Mitchell]) chloroplast proteins, the chlorophyll a/b-binding (Cab) proteins, and the small subunit of ribulose bisphosphate carboxylase (RbcS) are encoded by nuclear genes that are expressed in a light-dependent manner. The steady-state concentrations of five cab mRNAs vary with a dramatic circadian rhythm in plants grown under a constant diurnal cycle (10 hours light, 14 hours dark). cab mRNA levels reach their maximum during the light period, but begin to drop prior to the dark period. These RNAs fall to their minimum concentration during the dark period and then begin to increase again in anticipation of the light. Within this general pattern, there are variations in expression among specific classes of cab genes. The light harvesting complex of photosystem II LHCII-type 1 cab mRNAs rise to a well-defined maximum at 2 hours prior to the dark period. All but one of these genes are expressed in anticipation of the light period. The LHCII type 2 cab mRNA and the LHC of photosystem I cab mRNA are expressed at more constant levels throughout the light period. The expression of these genes anticipates the light more than does the expression of the LHCII type 1 genes. The steady state mRNA levels for the petunia rbcS genes show no significant diurnal fluctuation.     

金针菇光受体隐花色素Ffcry基因的鉴定及其表达模式

光照对金针菇生长发育及形态建成有重要作用。光受体隐花色素(cryptochrome)是响应光信号的主要受体之一。本研究首先鉴定了黄色金针菇FL19隐花色素基因Ffcry的基因和蛋白结构,并对其启动子中的顺式作用元件进行预测,其中包含有3个光响应元件。进一步对Ffcry基因在不同光照条件下的表达模式进行了系统研究,结果显示Ffcry基因在蓝光下表达量显著高于黑暗以及其他波长的光照条件;蓝光强度则在光通量为10 μmol/(m²·s)时Ffcry表达量最高,且Ffcry在蓝光照射20 min后逐渐上调表达,在180 min后表达量趋于稳定。最后,检测金针菇子实体不同发育时期发现,Ffcry基因在幼菇期菌盖中表达量最高,其次是伸长期菌盖和成熟期菌盖。该研究为后续研究隐花色素的分子功能以及深入揭示金针菇的光形态建成奠定了基础。     

黄梁木实时荧光定量PCR分析中内参基因的选择

为筛选黄梁木(Neolamarckia cadamba)实时定量PCR最佳内参基因, 该研究以黄梁木的根、芽、叶、花、果、皮及形成层为材料, 利用RT-qPCR技术对ACT、CAC、CYP和EF1α等21个管家基因家族43个候选内参基因进行表达量分析, 并利用geNorm、NormFinder和BestKeeper软件进行内参基因稳定性分析。geNorm的分析结果显示, UPL基因的稳定性最高(M=0.443), UBQ基因的稳定性最低(M=2.859); NormFinder的分析结果显示, UPL基因的稳定性最高(E=0.223), UBQ基因的稳定性最低(M=4.759); BestKeeper分析显示, UPL基因的标准偏差(SD=0.513)最低。研究结果表明, UPL基因作为内参基因稳定性最高, UBQ基因的稳定性最低。因此可以选择UPL基因作为黄梁木不同组织中RT-qPCR定量分析的内参基因。     

Differential expression of c-fos mRNA in the rat neocortex by in situ hybridization

The c-fos mRNA expression pattern in rat neocortex, was determined in the rat kept in a 12:12 light/dark cycle, in constant dark, or in constant light by in situ hybridization. At the beginning of the light period, c-fos mRNA was induced both in the neocortex and suprachiasmatic nucleus (SCN). Transiently increased c-fos mRNA expression was detected from 0830 to 0900 and soon declined to basal levels. Immediately prior to the beginning of the dark period, c-fos mRNA expression also increased and remained elevated in the neocortex following the dark period. In the constant dark group, c-fos mRNA expression showed no transient elevation at the beginning of the light period. On the other hand, c-fos mRNA expression in the constant light group increased during their subjective dark period as well as normal light/dark cycle. These results demonstrate a circadian pattern of c-fos mRNA expression in the neocortex which is similar to that observed previously in the inner and outer nuclear layers of the retina.