Physiological basis of salt stress tolerance in rice expressing the antiapoptotic gene SfIAP

Programmed cell death-associated genes, especially antiapoptosis-related genes have been reported to confer tolerance to a wide range of biotic and abiotic stresses in dicotyledonous plants such as tobacco (Nicotiana tabacum L.) and tomato (Solanum lycopersicum L.). This is the first time the antiapoptotic gene SfIAP was transformed into a monocotyledonous representative: rice (Oryza sativa L.). Transgenic rice strains expressing SfIAP were generated by the Agrobacterium-mediated transformation method and rice embryogenic calli, and assessed for their ability to confer tolerance to salt stress at both the seedling and reproductive stages using a combination of molecular, agronomical, physiological and biochemical techniques. The results show that plants expressing SfIAP have higher salt tolerance levels in comparison to the wild-type and vector controls. By preventing cell death at the onset of salt stress and maintaining the cell membrane’s integrity, SfIAP transgenic rice plants can retain plant water status, ion homeostasis, photosynthetic efficiency and growth to combat salinity successfully.

Peanut stripe potyvirus resistance in peanut (Arachis hypogaea L.) plants carrying viral coat protein gene sequences

Peanut (Arachis hypogaea L.) lines exhibiting high levels of resistance to peanut stripe virus (PStV) were obtained following microprojectile bombardment of embryogenic callus derived from mature seeds. Fertile plants of the commercial cultivars Gajah and NC7 were regenerated following co-bombardmentwith the hygromycin resistance gene and one of two forms of the PStV coat protein (CP) gene, an untranslatable, full length sequence (CP2) or a translatable gene encoding a CP with an N-terminal truncation (CP4). High level resistance to PStV was observed for both transgenes when plants were challenged with the homologous virus isolate. The mechanism of resistance appears to be RNA-mediated, since plants carrying either the untranslatable CP2 or CP4 had no detectable protein expression, but were resistant or immune (no virus replication). Furthermore, highly resistant, but not susceptible CP2 T0 plants contained transgene-specific small RNAs. These plants now provide important germplasm for peanut breeding, particularly in countries where PStV is endemic and poses a major constraint to peanut production.

Embryogenesis in flowering plants: Recent approaches and prospects

The overall architectural pattern of the mature plant is established during embryogenesis. Very little is known about the molecular processes that underlie embryo morphogenesis. Last decade has, nevertheless, seen a burst of information on the subject. The synchronous somatic embryogenesis system of carrot is largely being used as the experimental system. Information on the molecular regulation of embryogenesis obtained with carrot somatic embryos as well as observations on sandalwood embryogenic system developed in our laboratory are summarized in this review. The basic experimental strategy of molecular analysis mostly relied on a comparison between genes and proteins being expressed in embryogenic and non-embryogenic cells as well as in the different stages of embryogenesis. Events such as expression of totipotency of cells and establishment of polarity which are so critical for embryo development have been characterized using the strategy, Several genes have been identified and cloned from the carrot system, These include sequences that encode certain extracellular proteins (EPs) that influence cell proliferation and embryogenesis in specific ways and sequences of the abscisic acid (ABA) inducible late embryogenesis abundant (LEA) proteins which are most abundant and differentially expressed mRNAs in somatic embryos. That LEAs are expressed in the somatic embryos of a tree flora also is evidenced from studies on sandalwood Several undescribed or novel sequences that are enhanced in embryos were identified. A sequence of this nature exists in sandalwood embryos was demonstrated using a Cuscuta haustorial (organ-specific) cDNA probe. Somatic embryogenesis systems have been used to assess the expression of genes isolated from non-embryogenic tissues. Particular attention has been focused on both cell cycle and histone genes.

The effects of abiotic and biotic factors on somatic embryogenesis and seedlings of Pinus sylvestris (L.)

Somatic embryogenesis (SE) is an asexual form of plant propagation that occurs in nature and mimics many of the events of sexual reproduction. Pinus sylvestris (L.) is an important source of timber in Northern Eurasia but it is recalcitrant to somatic embryogenesis. Several factors important for the success of the P. sylvestris embryogenic cultures have not been thoroughly investigated. In this study, we examined the effects of parental genotypes on the SE in P. sylvestris, the involvement of the gaseous plant growth regulator, ethylene in SE, and also biotic effects on somatic embryos as well as on seedlings. We tested parental effects on immature embryo initiation for different media, storage periods, and on the maturation process. Maternal effects were found to be crucial for SE in the absence of paternal effects. No maternal-paternal interaction was observed at any stage of somatic embryo production. Additionally the role of ethylene at different developmental stages of SE was investigated. Two ACC synthase genes, PsACS1 and PsACS2, were isolated and characterized. PsACS1 was expressed during the proliferation stage in all tested genotypes, whereas PsACS2 was only expressed in somatic embryos of each genotype. Ethylene production in embryos at stage 3 was significantly higher than the other stages. In a parallel study, the response of somatic embryos to fungal elicitors was investigated. Three fungi, a mutualistic ectomycorrhizal (ECM) fungus (Suillus bovinus), a weak Scots pine pathogen (Heterobasidion parviporum) and a strong pathogen (H. annosum) were used. The gene expression patterns for embryos exposed to the H. parviporum elicitor were found to be similar to that documented for S. bovinus among the tested genes. By contrast somatic embryos exposed to the H. annosum elicitor had a different pattern of regulation which was marked by a delayed response, and in some cases death of the embryos. Furthermore, interaction without direct contact between P. sylvestris seedlings and microbes (mutualistic and pathogenic fungus, cyanobacterium) were investigated. Several novel genes expressed in seedlings treated with ECM fungus were isolated which suggested that physical contact is not necessary for elicitation of host responses. The results suggest that somatic embryos and seedlings of P. sylvestris are genetically well equipped to respond to fungal elicitor/exudates and could serve as a suitable model for reproducible molecular studies in conifer tree patho- and symbiotic systems.

Direct somatic embryogenesis in zygotic embryos of nutmeg (Myristica fragrans Houtt.)

Direct somatic embryogenesis from isolated intact as well as broken zygotic embryos and in vitro plantlets of nutmeg (Myristica fragrans Houtt.) was obtained. Enhanced embryogenic response was associated with broken zygotic embryos. Activated charcoal and light were the critical factors for induction of somatic embryogenesis in nutmeg. Histological evaluation revealed the presence of globular and cotyledonary stages. The somatic embryos underwent partial germination after a six-month lag period. A wide range of abnormal embryos were observed. The somatic embryos synthesised chlorophyll, exhibited phenylalanine ammonia lyase activity, synthesised phenolics, and could serve as a stable source of secondary metabolites of nutmeg which are commercially important.

Cultura de tecidos desdiferenciados e embriões somáticos de Petiveria alliacea L. visando à produção de substâncias bioativas

Petiveria alliacea L. pertence à família Phytolaccacceae e é conhecida popularmente como guiné ou amansa-senhor, entre outros nomes. Tem sido muito utilizada na medicina popular como agente terapêutico, devido à diversas propriedades farmacológicas. Estudos fitoquímicos têm contribuído para a descoberta de grande variedade de substâncias biologicamente ativas produzidas em diferentes partes da planta (saponinas, alcalóides, flavonóides, sulfetos, taninos, cumarinas, entre outros). A análise química da raiz tem revelado grande quantidade de derivados sulfurados, principalmente o dibenzil trissulfeto (DTS), com atividade antifúngica, antibacteriana, antioxidante e anticancerígena. Visando avaliar a produção biotecnológica do DTS, o presente trabalho teve como objetivo, otimizar a cultura de novas linhagens de calos, células em suspensão e embriões somáticos, a partir de plantas de P. alliacea L. mantidas in vitro, com o monitoramento da capacidade biossintética das culturas. Os resultados mostraram que a produção de calos friáveis foi possível em explantes foliares inoculados em meio MS suplementado com PIC ou 2,4-D. Além da resposta calogênica, foi observada a produção de estruturas globulares caracterizadas como embriões somáticos. A ocorrência de embriogênese somática direta foi confirmada através da análise histológica do processo regenerativo. A indução de embriões somáticos gerou um processo de embriogênese secundária altamente repetitivo até 150 dias de cultura e conversão a plantas em freqüência de 5%. Em relação à cultura de células em suspensão a partir dos calos friáveis, observou-se uma diminuição do crescimento celular ao longo das subculturas. As culturas em suspensão originadas de tecido embriogênico secundário continuaram o processo repetitivo em meio líquido e apresentaram conversão a plantas em taxas mais baixas que as obtidas em meio sólido. A obtenção de plantas completas a partir dos embriões somáticos demonstrou a possibilidade de utilização desse sistema para a micropropagação dessa espécie. O monitoramento fitoquímico dos sistemas de cultura in vitro e plantas de campo mantidas em casa de vegetação durante 02 anos apresentou diferenças significativas, confirmando que a cultura de tecidos pode alterar as rotas metabólicas. A cromatografia gasosa acoplada à espectrometria de massas realizada com extrato em diclorometano de embriões secos e hexânico de embriões frescos e raízes secas de plantas provenientes de embriões somáticos, demonstrou a presença do DTS, constituindo, portanto, sistemas in vitro importantes para a modulação desta substância.

火炬松体细胞无性系建立及其形态发生调控的研究

火炬松（Pinus taeda L.）原产美国东南部，是世界南方松中最重要的绿化和造林用速生针叶树种，现广泛分布于全球亚热带和部分热带地区，在我国的栽植面积居世界第2位，仅次于美国。目前，火炬松离体快速繁殖、遗传转化和品种改良研究中最大的障碍是没有获得良好的植株再生体系。本研究以火炬松的成熟种子为试材，建立了可调控的体细胞胚胎发生和器官发生植株再生系统，并对再生过程中的形态学变化进行了细胞学观察和扫描电镜观察;建立了胚性细胞悬浮系，测定了其重要生长参数的变化动态，优化了悬浮条件下体细胞胚胎发生的培养条件及悬浮细胞原生质体直接体细胞胚胎发生的培养条件。 进行了HA、HB、HC、MA、MB、MC、LA和LB等8种不同基因型的成熟合子胚在BMS、DCR、GD、LM、LP、MNCI、MS、SH及自行设计的TE等9种不同基本培养基上的愈伤组织诱导试验，筛选获得了愈伤组织发生频率较高的基因型HB、MA和MC，及基本培养基DCR和TE。激素组合试验表明，2,4-D和BA最有利于愈伤组织发生。两因子5水平等重复的愈伤组织诱导试验及方差分析结果证实，8 mg•L~(-1)2,4-D和4 mg•L~(-1)BA是愈伤组织诱导的最佳激素组合。诱导产生的愈伤组织经2次继代后，可明显分为4种类型，它们是1）白色、半透明、有光泽的粘性愈伤组织（WTGM）;2）淡黄色、疏松、有光泽的颗粒状愈伤组织（YLGG）;3）淡绿色、疏松的颗粒状愈伤组织（GLG）;和4）浅白色、水浸状的粘性愈伤组织（WMM）。其中白色、半透明、有光泽的粘性愈伤组织有较强的体细胞胚胎发生能力，淡黄色、疏松、有光泽的颗粒状愈伤组织有较强的不定芽发生能力。这两种愈伤组织的最高诱导频率分别是28.1%和35.7%。 在附加2,4-D、IBA和BA的DCR体细胞胚诱导培养基上，白色、半透明、有光泽的粘性愈伤组织中的胚性细胞形成胚性胚柄细胞团和早期原胚。提高培养基中的渗透压后，早期原胚发育成后期原胚。在附加ABA、PEG和活性炭的DCR体细胞胚成熟培养基上，后期原胚发育成子叶胚。在无激素DCR培养基上，子叶胚萌发形成再生完整植株。体细胞胚转换成小植株的最高频率是18.4%。在直接体细胞胚诱导增养基和直接体细胞胚发育培养基的作用下，成熟合子胚的子叶和胚轴上直接形成体细胞胚。直接体细胞胚胎发生的最高频率是18%。 在附加NAA、IBA和BA的TE不定芽原基诱导培养基上，淡黄色、疏松、有光泽的颗粒状愈伤组织中的胚性细胞形成不定芽原基。在附加IBA和BA的TE不定芽分化培养基上，不定芽原基分化产生不定芽。用基因型HB、MA和MC的淡黄色、疏松、有光泽的颗粒状愈伤组织进行的试验表明，不定芽分化的最佳低温（4 ℃）处理时间是5～6周，最佳蔗糖浓度是25～30 g•L~(-1)。分化产生的不定芽在附加IBA、GA_3和活性炭的TE培养基上，幼茎伸长。附加IBA、BA和GA_3的TE培养基上，伸长的不定芽生根形成完整植株。伸长不定芽的最高生根频率是46%。成熟合子胚在直接不定芽原基诱导培养基及直接不定芽分化培养基的作用下，从子叶和胚轴的不同部位产生直接不定芽。直接不定芽发生的最高频率是58.2%。 由成熟合子胚诱导愈伤组织形成过程中的形态学观察表明：在附加2,4-D和BA的DCR愈伤组织诱导培养基上，HB、MA和MC3种基因型中，MA主要在下胚轴形成愈伤组织，MC主要在子叶和胚根形成愈伤组织，HB主要在胚根形成体积较小的愈伤组织。在附加NAA和BA的TE愈伤组织诱导培养基上，HB、MA和MC3种基因型中，MA在单个子叶的顶端形成生长较快的愈伤组织，MC的所有子叶都形成愈伤组织，HB在所有子叶的顶端形成愈伤组织。 石蜡切片观察表明：4类愈伤组织的细胞组成不同．第1类愈伤组织主要由核大、质浓、体积小的园形胚性细胞及核呈柱状或新月形的体积较大的非胚性细胞组成;第2类愈伤组织主要由核大、质浓、体积小的园形胚性细胞组成，第3类愈伤组织主要由体积较大的棒状、葫芦形、新月形、盾片状细胞组成、第4类愈伤组织主要由体积较大的薄壁细胞和细胞壁加厚、细胞间连结紧密、无细胞核的分化细胞组成，第1类愈伤组织上形成的早期原胚的特点是：胚性头部由排列紧密、体积小的园形细胞组成，轮廓十分清晰、呈半圆形，胚柄由排列疏松的长形细胞组成，细胞体积大、细胞中有大的液泡，早期原胚在发育过程中和母体组织保持一定的隔离状态。第2类愈伤组织上形成的不定芽的特点是t结构上为单极性，其维管束和母体组织保持密切联系。扫描电镜观察表明;直接体细胞胚基部和母体组织保持较少的联系，其子叶是直立生长的．直接不定芽基部和母体组织保持较多的联系，其幼叶是向心卷曲生长的。 在培养周期内，基因型HB、MA和MC胚性细胞悬浮培养物的几个生长参数的变化动态相似。鲜重增长高峰在12—15 d，干重增长高峰在15～18 d，细胞体积增长高峰和胚数增长高峰在18—21 d。在培养的18—21 d，培养液中的pH值、电导率和蔗糖浓度接近或降到最低点。在悬浮培养条件下，体细胞胚形成的最佳起始细胞密度是5～6×103个／ml。继代培养时间延长，体细胞胚胎发生能力下降。热激处理促进基因型HB和MA体细胞胚的形成，抑制基因型MC体细胞胚的形成。在悬浮培养物中，观察到了裂生多胚。 对数生长期的火炬松胚性悬浮细胞，在以甘露醇作为渗透压稳定剂的酶混合液Cel-lulase“Onozuka”RS l%+Cellulase“Onozuka”R-10 2.5%+Pectolyase Y-23 0.2%的作用下，原生质体的产量和活力均最高。原生质体在DCR和KM8P两种培养基上形成了体细胞胚（包括胚性胚柄细胞团、早期原胚和后期原胚）．体细胞胚形成的最佳起始原生质体密度是7×l04个/ml，最佳ABA浓度是4 mg．L-I．

I.小麦非叶器官碳酸酐酶活性与定位分析II.镉毒害导致芦苇胚性细胞死亡的激素调控研究

第一部分： 通过生理测定和化学染色分析了冬小麦品种小堰54和京411的叶片和非叶片组织的碳酸酐 酶活性。叶片碳酸酐酶活性(CA)在挑旗时期达到最大值，之后减少到最小，而在饱粒期又呈 增加趋势。从灌浆期到饱粒期，颖片和内稃的CA活性均减少，而外稃和种皮的CA活性均增加。在饱粒期，小堰54的叶片、颖片、外稃和种皮CA活性均高于京411。组织化学染色表明，CA主要分布在旗叶的叶肉细胞叶绿体中，也分布在非叶片组织颖片、外稃和内稃的叶肉和维管束鞘细胞的胞质中。这些结果表明，小麦非叶组织叶肉和维管束鞘细胞的胞质中的CA可能对饱粒期冬小麦的C4光合途径起作用。饱粒期小堰54的C02传递到Rubisco酶速率和抗旱性较京411高。 第二部分： 以继代培养的芦苇胚性细胞为材料，利用台盼兰拒染法检测了悬浮细胞死亡过程，并利用石蜡切片法及苏木精染色法观察了不同浓度镉对芦苇细胞的毒害作用。1000μM的CdCl2迅速导致芦苇悬浮细胞死亡，200μM的CdClz在接种后第5天引起悬浮细胞死亡，100μM的CdCl2在接种后第7天引起悬浮细胞死亡，≤50μM的CdClz在接种后7天不引起悬浮细胞死亡。同时对不同浓度镉处理的芦苇胚性细胞的内源植物激素和可溶性蛋白质进行分析，≤50μM的镉浓度显著地降低胚性细胞内IAA、ZR、GA3和GA4的含量，却提高ABA的含量，抑制可溶性蛋白质的合成：≥100μM的镉浓度显著地提高IAA、ZR、GA3和GA4的含量，却降低ABA的含量，促进可溶性蛋白质的合成。这些结果表明，镉的毒害至少包括镉浓度决定的两种细胞死亡机制，高浓度的镉(1000μM)引起的细胞死亡应当为坏死，而100μM的镉引起植物悬浮细胞发生程序性死亡。在较高浓度(≥100μM)的镉处理下，芦苇细胞内内源IAA、ZR、GA3和GA4的浓度较高，可能调控可溶性蛋白质的合成而促进细胞发生程序化死亡。

Agrobacterium-mediated transformation of Kentucky bluegrass

Embryogenic calli of Kentucky bluegrass, named Md, were induced from mature seeds and embryos, and proliferated on medium K3 containing 2,4-dichlorophenoxyacetic acid (2,4-D, 10.0 mumol/L), 6-benzylaminopurine (BAR, 0.5 mumol/L) and K5 which was the K3 medium supplemented with cupric sulfa (0.5 mumol/L) under dim-light condition (20-30 mumol.m(-2).s-1, 16 h light) at 24 degreesC. Embryogenic calli were transformed with plasmids pDM805 Carring bar and gus genes, Which was mediated by an Agrobacterium strain AGL1, four transgenic lines were obtained. The important factors that affect the transformation efficiency and obtain desirable number of transgenic plants included: (1) the quality of embryogenic calli; (2) light condition and time of co-cultivation; (3) concentration of antibiotics used for suppressing the overgrowth of Agrobacterium in the course of transformed plant regeneration; (4) selection pressure, etc. The micro nutrient of cupric had significant influence on the quality of embryogenic calli. This presentation is the first successful protocol of Kentucky bluegrass transformation mediated by Agrobacterium.

Brachypodium distachyon. A new model system for functional genomics in grasses

John Draper, Luis A.J. Mur, Glyn Jenkins, Gadab C. Ghosh-Biswas, Pauline Bablak, Robert Hasterok,and Andrew P.M. Routledge (2001). Brachypodium distachyon. A new model system for functional genomics in grasses. Plant Physiology, 127 (4), 1539-1555. Sponsorship: BBSRC / Gatsby Foundation RAE2008

Carcinoma da nasofaringe: aspectos epidemiológicos clínicos e moleculares

Após uma revisão de aspectos filogénicos, ontogénicos e embriológicos contribuindo para a estruturação anatómica e fisiológica da nasofaringe, é efectuada uma análise das características clínicas do carcinoma da nasofaringe numa população portuguesa, comparando-as com a literatura. É efectuada análise de taxa de incidência da doença, razão de géneros, frequência relativa dos diversos subtipos de acordo com a classificação OMS, acuidade relativa dos estadiamentos TMN e sobrevivência em função do tratamento. A relação entre carcinoma da nasofaringe e infecção pelo vírus de Epstein – Barr em Portugal é estudada através da análise de detecção de DNA de EBV em tecido tumoral da nasofaringe e sangue periférico de doentes com NPC e em indivíduos saudáveis. São também efectuados estudos caso-controlo no sentido de perspectivar a relevância de dois polimorfismos genéticos na susceptibilidade genética para a doença. Esta Dissertação pretende ainda contribuir para a compreensão dos mecanismos biológicos de CN e a sua relação com o EBV numa região não endémica de baixo risco, como é Portugal, realçando a relevância da definição de um perfil biológico preditivo para o desenvolvimento de CN na população portuguesa.

Transformation of maize using silicon carbide whiskers

As the most commercially valuable cereal grown worldwide and the best-characterized in genetic terms, maize was predictably the first target for transformation among the important crops. Indeed, the first attempt at transformation of any plant was conducted on maize (1). These early efforts, however, were inevitably unsuccessful, since at that time, there were no reliable methods to permit the introduction of DNA into a cell, the expression of that DNA, and the identification of progeny derived from such a “transgenic” cell (2). Almost 20 years later, these technologies were finally combined, and the first transgenic cereals were produced. In the last few years, methods have become increasingly efficient, and transgenic maize has now been produced from protoplasts as well as from Agrobacterium-medieited or “Biolistic” delivery to embryogenic tissue (for a general comparison of methods used for maize, the reader is referred to a recent review—ref. 3). The present chapter will describe probably the simplest of the available procedures, namely the delivery of DNA to the recipient cells by vortexing them in the presence of silicon carbide (SiC) whiskers (this name will be used in preference to the term “fiber,” since it more correctly describes the single crystal nature of the material).

Stomatal guard cells are totipotent

It has been successfully demonstrated, using epidermis explants of sugar beet (Beta vulgaris L.), that stomatal guard cells retain full totipotent capacity. Despite having one of the highest degrees of morphological adaptation and a unique physiological specialization, it is possible to induce a re-expression of full (embryogenic) genetic potential in these cells in situ by reversing their highly differentiated nature to produce regenerated plants via a callus stage. The importance of these findings both to stomatal research and to our understanding of cytodifferentiation in plants is discussed.

Pollen ultrastructure in anther cultures of Datura innoxia. I. Division of the presumptive vegetative cell.

Ultrastructural features of embryogenic pollen in Datura innoxia are described, just prior to, during, and after completion of the first division of the presumptive vegetative cell. In anther cultures initiated towards the end of the microspore phase and incubated at 28 degrees C in darkness, the spores divide within 24 h and show features consistent with those of dividing spores in vivo. Cytokinesis is also normal in most of the spores and the gametophytic cell-plate curves round the presumptive generative nucleus in the usual highly ordered way. Further differentiation of the 2 gametophytic cells does not take place and the pollen either switches to embryogenesis or degenerates. After 48-72 h, the remaining viable pollen shows the vegetative cell in division. The cell, which has a large vacuole and thin layer of parietal cytoplasm carried over from the microspore, divides consistently in a plane parallel to the microspore division. The dividing wall follows a less-ordered course than the gametophytic wall and usually traverses the vacuole, small portions of which are incorporated into the daughter cell adjacent to the generative cell. The only structural changes in the vegetative cell associated with the change in programme appear to be an increase in electron density of both plastids and mitochondria and deposition of an electron-dense material (possibly lipid) on the tonoplast. The generative cell is attached to the intine when the vegetative cell divides. Ribosomal density increases in the generative cell and exceeds that in the vegetative cell. A thin electron-dense layer also appears in the generative-cell wall. It is concluded that embryogenesis commences as soon as the 2 gametophytic cells are laid down. Gene activity associated with postmitotic synthesis of RNA and protein in the vegetative cell is switched off. The data are discussed in relation to the first division of the embryogenic vegetative cells in Nicotiana tabacum.

Method for the production of cotton somatic embryos. United States Patent Application

The present invention provides Inter alia, a method for the production of cotton somatic embryos comprising (a) isolating a totipotent stomatal cell-containing epidermal explant from leaf material excised from a cotton plant; and (b) culturing said explant in a basal medium which comprises an embryogenic callus-inducing quantity of an auxin and a cytokinin under an embryogenic callus inducing intensity of light until embryogenic callus is formed; and (c) sub-culturing said embryogenic callus onto a somatic embryo differentiation media to produce said somatic embryos. Plants may be regenerated from the somatic embryos and in a particular embodiment of the invention said totipotent stomatal cell is transformed, prior to the inducement of embryogenic callus, with a polynucleotide that provides for a desired agronomic trait.