蓝粒小麦花青素生物合成途径中的二氢黄酮醇4-还原酶基因的分子克隆

蓝色色素在蓝粒小麦种子糊粉层中的生物合成途径的分子生物学机制至今仍不清楚。应用RT—PCR和RACE方法从蓝粒小麦正在发育的种子中克隆到一个编码二氢黄酮醇4-还原酶的基因(DFR)。推测其为花青素生物合成途径中的一个关键基因,且与蓝粒小麦中蓝色色素形成密切相关;其开放阅读框编码一个包含354个氨基酸残基的多肽,与一些从其他植物中已克隆到的DFR有很高的同源性：大麦(94％)、水稻(83％)、玉米(84％)。从长穗偃麦草(2n=70)、蓝粒小麦、浅蓝粒小麦自交产生的白粒后代小麦以及中国春的基因组中分别分离到一个全长DFR序列。经聚类分析表明DFR cDNA核甘酸序列与从中国春基因组中克隆的DFR具有100％的同源性,且与长穗偃麦草、蓝粒小麦、白粒小麦基因组中分离的DFR均有很高的同源性。4个DFR基因组DNA均含有3个内含子,且它们之间的差异主要在内含子区,表明该基因在进化上很保守。经Southern杂交分析,DFR小麦中至少有3-5个拷贝,不同小麦材料间未见明显差异,但与长穗偃麦草有明显差异,属于一个DFR超基因家族。Northern分析表明该DFR在蓝粒和白粒种子的不同发育时期的表达存在明显差异,都在开花后大约18d表达最强,在同一时期的蓝白种子中,DFR蓝粒种子中的表达量高于白粒。DFR转录本在小麦和长穗偃麦草的幼叶中积累多,但在芽鞘中的表达显著低于幼叶中;在小麦的根和长穗偃麦草的发育种子中均未检测到DFR的表达。推测蓝粒小麦中可能存在调控DFR在蓝粒小麦中表达的调控基因,类似于玉米花青素合成途径中的调节基因。     

Hydrogen peroxide scavenging regulates germination ability during wheat (Triticum aestivum L.) seed maturation

Hydrogen peroxide (H₂O₂) promotes seed germination of cereal plants and ascorbic acid which acts as antioxidant suppresses the germination of wheat seeds, but the role of H₂O₂ scavenging on germination during seed maturation has not been demonstrated. We investigated relationship of germination, ascorbate, H₂O₂ scavenging enzymes and sensitivity to ascorbic acid (AsA) maturing seeds of two typical wheat (Triticum aestivum L.) cultivars, cvs. Shirogane-Komugi and Norin61. Shirogane-Komugi had marked high germination ability than Norin61 during seed maturation. Although the H₂O₂ content had no difference in the two culti-vars, sensitivity to AsA of Norin61 seeds was higher than that of Shirogane-Komugi seeds during seed maturation. The sensitivity to AsA closely correlated with germination characteristic in the two cultivars. Especially, at 28 days after pollination (DAP), sensitivity to AsA in Norin61 seeds was remarkably high. At that stage, no significant differences were observed in endogenous AsA level, ascorbate peroxidase (APX, EC 1.11.1.11) and dehydroascorbate reductase (DHAR, EC 1.8.5.1) activities in the two cultivars. However, catalase (CAT, EC 1.11.1.6) activity and CAT mRNA in Norin61 were remarkably higher than in Shirogane-Komugi. Sensitivity to AsA at 35 and 42 DAPs kept high levels in Norin61, and endogenous AsA and CAT activity in the seeds were significantly higher than in Shirogane-Komugi. These results revealed a direct correlation between germination and antioxidant sensitivity during the developmental stages of wheat seeds.Key words: ascorbic acid, germination, hydorogen peroxide, maturation, wheat seed     

蓝粒小麦花青素生物合成途径中的二氢黄酮醇4-还原酶基因的分子克隆

蓝色色素在蓝粒小麦种子糊粉层中的生物合成途径的分子生物学机制至今仍不清楚.应用RT-PCR和RACE方法从蓝粒小麦正在发育的种子中克隆到一个编码二氢黄酮醇4-还原酶的基因(DFR).推测其为花青素生物合成途径中的一个关键基因,且与蓝粒小麦中蓝色色素形成密切相关;其开放阅读框编码一个包含354个氨基酸残基的多肽,与一些从其他植物中已克隆到的DFR有很高的同源性:大麦(94%)、水稻(83%)、玉米(84%).从长穗偃麦草(2n=70)、蓝粒小麦、浅蓝粒小麦自交产生的白粒后代小麦以及中国春的基因组中分别分离到一个全长DFR序列.经聚类分析表明DFR cDNA核甘酸序列与从中国春基因组中克隆的DFR具有100%的同源性,且与长穗偃麦草、蓝粒小麦、白粒小麦基因组中分离的DFR均有很高的同源性.4个DFR基因组DNA均含有3个内含子,且它们之间的差异主要在内含子区,表明该基因在进化上很保守.经Southern杂交分析,DFR在小麦中至少有3～5个拷贝,不同小麦材料间未见明显差异,但与长穗偃麦草有明显差异,属于一个DFR超基因家族.Northern分析表明该DFR在蓝粒和白粒种子的不同发育时期的表达存在明显差异,都在开花后大约18 d表达最强,在同一时期的蓝白种子中,DFR在蓝粒种子中的表达量高于白粒.DFR转录本在小麦和长穗偃麦草的幼叶中积累多,但在芽鞘中的表达显著低于幼叶中;在小麦的根和长穗偃麦草的发育种子中均未检测到DFR的表达.推测蓝粒小麦中可能存在调控DFR在蓝粒小麦中表达的调控基因,类似于玉米花青素合成途径中的调节基因.     

An analytical survey of the polyphenols of seeds of varieties of grape (Vitis vinifera) cultivated in Greece: implications for exploitation as a source of value-added phytochemicals

Seed samples from 12 white and 25 red international and Hellenic native grape varieties (Vitis vinifera) were screened for their polyphenolic composition. The polyphenols determined were mainly of low molecular weight, including gallic acid, catechin, epicatechin, epicatechin gallate, epigallocatechin, epigallocatechin gallate and the procyanidins B1 and B2. Average values of total content for white and red varieties (376 and 388 mg/100 g seeds, respectively) were very similar. Comparable results were observed with respect to the individual polyphenol content with seeds from red varieties being, in general, slightly richer. The predominant flavanol monomer in white and red varieties was catechin (which accounted for 50.5 and 49.3%, respectively, of the total content), whilst gallic acid and epigallocatechin were the constituents showing the lowest content, respectively. The data obtained are discussed with regard to the exploitation of grape seeds as a low-cost source of value-added phytochemicals.     

Proteome profiling highlights mechanisms underlying pigment and tocopherol accumulation in red and black rice seeds

Rice is a major component of the human diet and feeds more than 50 million people across the globe. We previously developed two pigmented rice cultivars, Super-hongmi (red seeds) and Super-jami (black seeds), that are highly rich in antioxidants and exhibit high levels of radical scavenging activities. However, the molecular mechanism underlying the accumulation of pigments and different antioxidants in these rice cultivars remains largely elusive. Here, we report the proteome profiles of mature Super-hongmi and Super-jami seeds, and compared them with the Hopum (white seeds) using a label-free quantitative proteomics approach. This approach led to the identification of 5127 rice seed proteins of which 1628 showed significant changes in the pigmented rice cultivar(s). The list of significantly modulated proteins included a phytoene desaturase (PDS3) which suggested accumulation of ζ-carotene in red seeds while the black seeds seem to accumulate more of anthocyanins because of the higher abundance of dihydroflavonol 4-reductase. Moreover, proteins associated with lignin and tocopherol biosynthesis were highly increased in both red and black cultivars. Taken together, these data report the seed proteome of three different colored rice seeds and identify novel components associated with pigment accumulation in rice.     

矮败蓝标型小麦不育系的选育与研究

利用蓝粒太谷核不育硬粒小麦89-2343[AABB 4D(MS2)/4E]与普通小麦7739-3(2n=42)杂交、回交所产生的蓝粒可育株与白粒矮败材料杂交、回交,育成了一份矮败蓝粒小麦.选用13份遗传背景不同的白粒普通小麦与之杂交、回交,育成了13份矮败蓝粒小麦.对后代的粒色和育性分离进行分析,蓝粒矮败不育株占22.1%,白粒非矮秆可育株占77.7%,表明蓝粒基因、Ms2和Rht10均位于附加染色体上,且连锁紧密;但不同轮回亲本,矮败蓝粒的传递率有差异,477A的传递率最高,接近50%.细胞学分析表明矮败蓝粒小麦仍为单体附加系;探讨了矮败蓝粒小麦在群体改良和杂种小麦生产中的应用.     

Non-lethal freezing effects on seed degreening in Brassica napus

The effects of a non-lethal freezing stress on chlorophyll content, moisture level and distribution, and abscisic acid (ABA) levels were examined in siliques and seeds of Brassica napus (canola). A non-lethal freezing stress resulted in the retention of chlorophyll in seed at harvest that was most pronounced for seeds 28, 32 and 36 days after flowering (DAF). This increase was primarily due to an increased retention of chlorophyll a relative to chlorophyll b. Chlorophyll retention in seeds exposed to a non-lethal freezing stress correlated with an increased ABA catabolism, as measured 1, 3 or 7 days after the stress treatment. Although the non-lethal freezing stress had no significant effect on moisture content in seeds of siliques stressed at 28–44 DAF, moisture distribution, as viewed by magnetic resonance imaging, showed an uneven drying of 32 and 40 DAF siliques after exposure to the non-lethal freezing stress. Moisture was initially lost more rapidly from the silique wall between seeds, than in control non-stressed siliques. Increased moisture loss was not due to structural changes in the vasculature of the silique/seed of stressed tissues. These results are consistent with the hypothesis that a non-lethal freezing stress-induced decrease in ABA level, during seed maturation, effects an inhibition of normal chlorophyll a catabolism resulting in mature but green B. napus seed.     

光质及种子大小对普洱地区14种植物种子萌发的影响

以普洱地区14种常见植物种子为材料,在实验室条件下研究了其在白光、黑暗、红光和蓝光条件下的萌发特性,并分析了种子大小与萌发率、萌发速率、萌发开始时间的关系。结果表明:光质对四方蒿、沙针、尖子木、藿香蓟种子萌发率和萌发速率均有显著影响(P0.05)。光质对大叶斑鸠菊、云南山枇花、臭灵丹、车桑子、光萼猪屎豆、葫芦茶、云南地桃花、西南宿苞豆、岗柃、中国宿苞豆10个物种的种子萌发率和萌发速率均没有显著影响(P0.05),以上物种中除中国宿苞豆外,其他物种种子萌发率均在20%以下,处于休眠状态。四方蒿种子在白光(89.9%)和红光(84.7%)下萌发率最高,红光下种子萌发最快(4.93),蓝光下种子萌发开始时间最晚(11.3 d);沙针种子在白光下萌发率最高(80.4%)、萌发速率最快(2.71),在黑暗和蓝光下萌发率较低(43.9%和38%)、萌发速率最慢(0.73和0.85),白光、红光下萌发开始最早(11 d),黑暗条件下萌发开始最晚(21.7 d);尖子木种子萌发率在白光、黑暗、蓝光下均在86%以上,而红光下仅32%且萌发速率最慢(1.29),在蓝光下萌发开始时间最晚(13 d);藿香蓟种子萌发率和萌发速率在红光下最高(分别为71.3%和6.46),黑暗条件下最低(分别为42.5%和2.62);大叶斑鸠菊萌发开始时间在黑暗条件下最早(6 d),其次是白光下(7 d),蓝光和红光下较晚,分别为8 d和7.7 d。14个物种种子的萌发率与种子大小间均有显著负相关关系;种子萌发速率、萌发开始时间与种子大小间也有负相关关系,但不显著;种子大小与萌发率、萌发速率和萌发开始时间的关系不会随着光质的变化而发生变化。     

Efficient production of wheat-barley hybrids and preferential elimination of barley chromosomes

Summary Intergeneric hybridization between four common wheat cultivars, Triticum aestivum L. cultivars Chinese Spring, Norin 12, Norin 61, and Shinchunaga, and cultivated barley, Hordeum vulgare L. cultivars Betzes, Nyugoruden, Harunanijou, and Kinai 5 were carried out in a greenhouse under 15 – 20 °C and long-day (15 h) photoperiod conditions. Two days prior to pollination, a 100 mg/1 2,4-D solution was injected into wheat stems. Among wheat cultivars, Norin 12, Norin 61, and Shinchunaga showed higher crossabilities than that of Chinese Spring, suggesting the presence of crossability gene(s) other than the kr system of Chinese Spring. Variation was also found among the barley cultivars as male parents. Betzes barley showed the highest crossability with wheat. Thus, the cross Norin 12×Betzes showed the highest crossability (8.25%), followed by Norin 61 ×Betzes (6.04%), Shinchunaga×Betzes (5.00%), and Shinchunaga×Kinai 5 (5.00%). The embryos were rescued by culture at 15–20 days after pollination. Seventyfour plants were obtained from 82 embryos. The morphology of the hybrid plants resembled that of wheat parents. Among 60 seedlings observed, 28 had 28 chromosomes, 8 had 21, 23 had aneuploid numbers of chromosomes (22–27), and 1 had 29 chromosomes. About half of the aneuploid hybrids showed mosaicism for chromosome number. By analyzing five isozyme markers of barley chromosomes, the chromosome constitutions of the aneuploid hybrids were determined. Barley chromosomes 1 and 5 were found to be preferentially eliminated in the hybrids, while chromosomes 2 and 4 were eliminated infrequently. The conditions and genetic factors for high crossability and the tendency of barley chromosome elimination are discussed.     

Photomorphogenesis, photosynthesis, and seed yield of wheat plants grown under red light-emitting diodes (LEDs) with and without supplemental blue lighting

Red light-emitting diodes (LEDs) are a potential light sourcefor growing plants in spaceflight systems because of their safety,small mass and volume, wavelength specificity, and longevity.Despite these attractive features, red LEDs must satisfy requirementsfor plant photosynthesis and photomorphogenesis for successfulgrowth and seed yield. To determine the influence of galliumaluminium arsenide (GaAIAs) red LEDs on wheat photomorphogenesis,photosynthesis, and seed yield, wheat (Triticum aestivum L.,cv. ‘USU-Super Dwarf’) plants were grown under redLEDs and compared to plants grown under daylight fluorescent(white) lamps and red LEDs supplemented with either 1% or 10%blue light from blue fluorescent (BF) lamps. Compared to whitelight-grown plants, wheat grown under red LEDs alone demonstratedless main culm development during vegetative growth throughpreanthesis, while showing a longer flag leaf at 40 DAP andgreater main culm length at final harvest (70 DAP). As supplementalBF light was increased with red LEDs, shoot dry matter and netleaf photosynthesis rate increased. At final harvest, wheatgrown under red LEDs alone displayed fewer subtillers and alower seed yield compared to plants grown under white light.Wheat grown under red LEDs+10% BF light had comparable shootdry matter accumulation and seed yield relative to wheat grownunder white light. These results indicate that wheat can completeits life cycle under red LEDs alone, but larger plants and greateramounts of seed are produced in the presence of red LEDs supplementedwith a quantity of blue light. Key words: Triticum aestivum L., red light, blue light, subtillering, bioregenerative advanced life support     

Stored mRNA in cotyledons of Vigna unguiculata seeds: nucleotide sequence of cloned cDNA for a stored mRNA and induction of its synthesis by precocious germination

By differential hybridization screening, we previously selected a class of cDNA clones from a gt10 cDNA library that was constructed from the total poly(A)⁺ RNA of mature cowpea cotyledons (Plant Cell Physiol 31: 39–44, 1990). pSAS10, a clone of this class, hybridized with a cDNA probe complementary to poly(A)⁺ RNA from cotyledons collected 1 day after the onset of imbibition (DAI), but not with the cDNA probe from cotyledons at development stage II (13 to 15 days after flowering, DAF). pSAS10 mRNA was detectable only in cotyledons at development stage III (17 to 19 DAF) or later, and its level began to decline when seeds germinated. We have suggested that pSAS10 mRNA is likely to belong to the class of stored mRNA or the mRNA that is formed at the late stage of seed maturation, is conserved in quiescent seeds and becomes functional at the early stage of germination. We determined the nucleotide sequence of pSAS10 cDNA consisting of 459 bp and an approximately 36 bp poly(A) tract, and deduced the amino acid sequence of its product, a 10-kDa cysteine-rich polypeptide. Synthesis of pSAS10 mRNA was induced just before germination began, not only in mature seeds but also in immature seeds even at stages I (9 to 11 DAF) and II (13 to 15 DAF) if they were placed under conditions suitable for germination.     

Analysis of sequential accumulation of individual pigeonpea protease inhibitors during seed development

Seeds of pigeonpea are known to accumulate protease inhibitors (PIs), belonging to the Bowman-Burk inhibitor family. PIs are important for natural defense against phytophagous insect pests. Most insects attack crops at the early stages of seed development. Accumulation patterns of individual PIs and their relationship with each other were studied in developing seeds of 76 pigeonpea lines derived from BDN2 cultivar by ethyl methane sulfonate induced chemical mutagenesis. PIs extracted from these lines, collected between 10 and 40 days after flowering (DAF) and from mature seeds of BDN2 cultivar, were detected by using gel X-ray film contact print method. A total of 9 trypsin–chymotrypsin inhibitors were detected in mature seeds. All the nine PIs were capable of inhibiting proteases. Appearance of detectable levels of individual PIs started around 10 DAF. The PI-3 appeared early and was the most stable. It was accumulated in all the studied lines and was also detected in 84 % of the samples collected 10 DAF. In particular, 14 DAF, the individual PIs were accumulated and accumulation sequence was observed (PI-3, PI-2, PI-5, PI-7, PI-6, PI-4, PI-8, PI-9 and PI-1). Accumulation continued up to 40 DAF when seeds started hardening. Chemical mutagenesis could not produce any variation in the profile of individual PIs in the 76 studied lines in mature seeds. The process of accumulation of inhibitors is sturdy and mutagenesis fails to alter it. The robust mechanism is responsible for early appearance of PI-3. Early accumulated PIs in this study need further exploration for strengthening natural defense of pigeonpea against pests.     

Microscopic Study of Mature Seed Coats and Aborted Structures of Interspecific Cotton Hybrids

Seed coats and fibers of aborted structures (termed “motes”) and mature seeds from an interspecific hybrid (ISH) of cotton (Gossypium hirsutum x G. barbadense) were studied by microscopy to determine (a) the developmental stages at which motes of various sizes stop growing and (b) the origin of lint-contaminating fragments. Small motes (1–2 mm wide, up to 3 mm long) were identified as ovules whose growth had been arrested before anthesis or soon afterwards, medium-size motes (1–3 mm wide, 3–5 mm long) as those whose growth had been arrested up to 10 days post-anthesis, and large motes (3–5 mm wide, 5–8 mm long) as those which had stopped growing about 20 days post-anthesis. Microscopic examination of lint-contaminating fragments showed that they derive mainly from medium-size motes and partly from mature seed coats. Reducing the number of medium-size motes by breeding can, therefore, improve the lint quality of ISHs of cotton.     

Photomorphogenesis, photosynthesis, and seed yield of wheat plants grown under red light-emitting diodes (LEDs) with and without supplemental blue lighting

Red light-emitting diodes (LEDs) are a potential light source for growing plants in spaceflight systems because of their safety, small mass and volume, wavelength specificity, and longevity. Despite these attractive features, red LEDs must satisfy requirements for plant photosynthesis and photomorphogenesis for successful growth and seed yield. To determine the influence of gallium aluminium arsenide (GaAlAs) red LEDs on wheat photomorphogenesis, photosynthesis, and seed yield, wheat (Triticum aestivum L., cv. 'USU-Super Dwarf') plants were grown under red LEDs and compared to plants grown under daylight fluorescent (white) lamps and red LEDs supplemented with either 1% or 10% blue light from blue fluorescent (BF) lamps. Compared to white light-grown plants, wheat grown under red LEDs alone demonstrated less main culm development during vegetative growth through preanthesis, while showing a longer flag leaf at 40 DAP and greater main culm length at final harvest (70 DAP). As supplemental BF light was increased with red LEDs, shoot dry matter and net leaf photosynthesis rate increased. At final harvest, wheat grown under red LEDs alone displayed fewer subtillers and a lower seed yield compared to plants grown under white light. Wheat grown under red LEDs+10% BF light had comparable shoot dry matter accumulation and seed yield relative to wheat grown under white light. These results indicate that wheat can complete its life cycle under red LEDs alone, but larger plants and greater amounts of seed are produced in the presence of red LEDs supplemented with a quantity of blue light.     

Diapause de Pieris brassicae: Role des photorecepteurs cephaliques,etude des carotenoides cerebraux

By a technique of “partial masking” it has been demonstrated that only the head of last instar larvae of P. brassicae (reared under 9 hr/24 hr white light, 20°C) is sensitive to an additional 7 hr of blue or green or yellow lights. In only this case, the percentage of pupal diapause is considerably reduced. No part of the caterpillar seems particularly sensible to red light (630–670 nm) corresponding to the main absorbed wavelights of pterobilin, the integumental pigment of the larvae. The technique of “partial masking” shows that the photoreceptor is in the abdomen when a brain is grafted in this part of the larvae. On the other hand, long photophases in white or blue lights can activate brains of diapausing larvae grafted in brainless diapausing pupae. This shows the important rôle of the brain in the induction of pupal diapause. The eyes of the larvae can be also considered as photoreceptors in the induction of this phenomenon.β carotene and lutein have been identified in the brain of 5th instar caterpillars. These two pigments are very important in light reception, but they cannot entirely explain the photosensitivity of the larvae of P. brassicae.     

Photocontrol of Growth, and of Anthocyanin and Chlorogenic Acid Production in Cultured Callus Tissues of Haplopappus gracilis

Cultures of dark-grown Haplopappus callus (strain AI) were exposedto continuous blue, green, red, far-red, and white light for33 days at energy levels of approximately 10 J m^-2s^-1. Growthwas suppressed in all but far-red. Blue had the greatest suppressiveeffect, green the least; red and white were about equally effective.Mean cell generation times were increased from 8–8 days(dark control) to 12.5 days in red light and 20.5 days in blue.There was a slight increase in mean wet weight per cell in bluelight but a slight decrease in red, whereas there was almosta twofold increase in mean dry weight per cell in blue and littlechange in red. In contrast, far-red stimulated growth; the meancell generation time was reduced to 6–5 days and therewas little change in wet or dry weight per cell. Anthocyanin synthesis was promoted by all wavebands except far-red.Blue had the greatest effect, then white, red, and green inthat order. In blue light the pigments accumulated rapidly,but only during the early stages of culture. The maximum amountper cell was attained after 7 days and thereafter the valuesdeclined. In red, however, the pigments accumulated relativelyslowly, and the maximum cell content was not attained until22 days; the amount attained was less than half that attainedin blue light. Initially, the ratio of cyanidine-3-glucosideto cyanidine-3-rutinoside exceeded 5.0 in blue light, but theratio fell to almost unity with time. This probably reflecteda rapid initial synthesis of the glucoside accompanied by asteady conversion to the rutinoside. Blue light was also more effective than red in acceleratingchlorogenic acid production. The response to blue light occurredafter the initial rise in anthocyanins and continued for therest of the culture period. The data are discussed in relation to similar high-energy photoresponsesreported for intact systems.     

Hybridisation and fruit formation in macabo cocoyam (Xanthosoma sagittifolium (L.) Schott)

Studies on the floral morphology of macabo cocoyam (Xanthosoma sugittifolium (L.) Schott) indicated that it required 50 to 70 days for flower formation while fruit maturity took 40 to 60 days after pollination. Among the three types of cocoyams (“white”, “red” and “yellow”), male flowers were more sterile in the “red” and “yellow” types. The spadix consisted of three parts, a bottom pistillate section, a central constricted region with sterile flowers separating the pistil from a third staminate section. The fruiting head formed as a result of hybridisation, is dome shaped and is comprised of a dense cluster of berries. Mean number of berries per fruiting head was 244 ± 40 while the weight of each head was 16.15 ± 6.38 gm. There were an average of 15 ± 6 seeds per berry with 100 seeds weighing 0.0266 ± 0.0048 gm. The longitudinally shaped seed is ridged and grooved like a pumpkin pod when observed under high magnification (400 ×)     

Profiles of photosynthetic pigment accumulation and expression of photosynthesis-related genes in the marine cyanobacteria Synechococcus sp.: Effects of LED wavelengths

Light quality is a significant environmental factor that influences photosynthetic pigments in cyanobacteria. In the present study, we illuminated the marine cyanobacteria Synechococcus sp. with white (350 ～ 700 nm), red (630 nm), green (530 nm), and blue (450 nm) light emitting diodes (LEDs) and measured pigment levels (chlorophyll, carotenoid, and phycobiliprotein) and expression of photosynthesis-related genes (pebA, psbB, and psaE). The amount of photosynthetic pigments (total pigments, chlorophyll, and phycobiliproteins) was higher in the green and blue LED groups than in the white and red LED groups after 8 days of culture. The cells were prepared in a 1.5 mL solution for the analysis of the total pigments, chlorophyll, and carotenoid, and in a 2 mL for analysis of phycobiliproteins. The mRNA expression levels of pebA and psbB significantly increased after 8 days of cultivation under green and blue light, while the mRNA expression levels of psaE decreased. These results indicate that green and blue light increase the accumulation of photosynthetic pigments. In contrast red light induced mRNA expression of psaE and stimulated cell growth in Synechococcus sp.     

Adaptations in Pigment Composition and Photosynthesis by Far Red Radiation in Chlorella pyrenoidosa

Chlorella pyrenoidosa has been cultivated in radiation of wavelengths between 690–975 nm for several months. Absorption spectra and action spectra of photo-synthesis have been determined for far red and “white” light brown cultures, In vivo spectrophotometric analyses and action spectra showed that fur red growth Chlorella adapted to the extreme light conditions by an increase both in absorption and photosynthesis above 700 nm. It is proposed that som of the in vivo normal chlorophyll a forms were converted to a far red absorbing chlorophyll a form, giving the far red exposed suspension an increased photosynthetic activity between 700–740 nm. The analyses of far red grown Chlorella have also shown an increased photosynthesis in the blue part of the spectrum, presumably due to a decrease in photosynthetically inactive carotenoid content. By culturing Chlorella in a “white” light gradient between 0.5 × 10⁴ and 3.7 × 10⁴ erg cm^?2 s^?1, it has been demonstrated that light intensity did not influence pigment ratios between 500–750 nm. In the blue part, however, high light levels caused increased absorption because of increased carotenoid content. Some ecological aspects of this far red effect have also been discussed.     

Combination of Red and Blue Lights Improved the Growth and Development of Eggplant (Solanum melongena L.) Seedlings by Regulating Photosynthesis

The photosynthesis, photomorphogenesis, and photoperiod processes in plants are regulated according to light intensity and quality. The aim of this study was to investigate the effects of different light qualities on eggplant seedlings and determine the best light quality for growth. The seedlings of eggplant cultivar ‘Jingqiejingang’ were grown under light-emitting diodes (LEDs): white (W, the control), red (R), blue (B), and different ratios of B/R lights (B/R = 1/1, B/R = 1/3, B/R = 1/6, B/R = 1/9). The growth parameters, leaf morphology, photosynthetic performance, chlorophyll fluorescence, and the carbon and nitrogen metabolism in the leaves of eggplant seedlings under different LED light treatments were studied. The results showed that the plant height, leaf development, and photosynthetic characteristics were inhibited by red light but elevated by blue light compared with the control. Conversely, the contents of chlorophyll a, chlorophyll b, and carotenoids were all increased by red light, while decreased by blue light significantly. In addition, the contents of carbohydrates and the activities of nitrogen assimilation enzymes were not or little changed by the monochromatic blue and red light. The combined light of red and blue were more beneficial for growth than the monochromatic light, especially B/R = 1/3 light. Under B/R = 1/3 light, the parameter values of plant growth, leaf development, photosynthetic pigments and characteristics, and carbon and nitrogen metabolism were all maximum. Taken together, combined application lights of red and blue are good practice for the cultivation of eggplant seedlings, and LED B/R = 1/3 light was optimum.