DCAF4, a novel gene associated with leucocyte telomere length

Background Leucocyte telomere length (LTL), which is fashioned by multiple genes, has been linked to a host of human diseases, including sporadic melanoma. A number of genes associated with LTL have already been identified through genome-wide association studies. The main aim of this study was to establish whether DCAF4 (DDB1 and CUL4-associated factor 4) is associated with LTL. In addition, using ingenuity pathway analysis (IPA), we examined whether LTL-associated genes in the general population might partially explain the inherently longer LTL in patients with sporadic melanoma, the risk for which is increased with ultraviolet radiation (UVR). Results Genome-wide association (GWA) meta-analysis and de novo genotyping of 20 022 individuals revealed a novel association (p=6.4×10−10) between LTL and rs2535913, which lies within DCAF4. Notably, eQTL analysis showed that rs2535913 is associated with decline in DCAF4 expressions in both lymphoblastoid cells and sun-exposed skin (p=4.1×10−3 and 2×10−3, respectively). Moreover, IPA revealed that LTL-associated genes, derived from GWA meta-analysis (N=9190), are over-represented among genes engaged in melanoma pathways. Meeting increasingly stringent p value thresholds (p<0.05, <0.01, <0.005, <0.001) in the LTL-GWA meta-analysis, these genes were jointly over-represented for melanoma at p values ranging from 1.97×10−169 to 3.42×10−24. Conclusions We uncovered a new locus associated with LTL in the general population. We also provided preliminary findings that suggest a link of LTL through genetic mechanisms with UVR and melanoma in the general population.

The DISC1 Pathway in the Genetic Etiology of Schizophrenia

Schizophrenia is a severe psychotic disorder affecting 0.5-1 % of the population. The disorder is characterized by hallucinations; delusions; disorganized behavior and speech; avolition; anhedonia; flattened affect and cognitive deficits. The etiology of the disorder is complex with evidence for multiple genes contributing to the onset of the disorder along with environmental factors. DISC1 is one of the most promising candidate genes for schizophrenia. It codes for a protein which takes part in numerous molecular interactions along several pathways. This network, termed as the DISC1 pathway, is evidently important for the development and maturation of the central nervous system from the embryo until young adulthood. Disruption at these pathways is thought to predispose schizophrenia. In the present study, we have studied the DISC1 pathway in the etiology of schizophrenia in the Finnish population. We have utilized large Finnish samples; the schizophrenia family sample where DISC1 was originally shown to associate with schizophrenia and the Northern Finland birth cohort 1966 (NFBC66). Several DISC1 binding partners displayed evidence for association in the family sample along with DISC1. Through a genome-wide linkage study, we found a significant linkage signal to a locus where a DISC1 binding partner NDE1 is located at the carriers of a certain DISC1 risk variant. In a follow-up study, genetic markers in NDE1 displayed significant evidence for association with schizophrenia. Further exploration of association between 11 genes of the DISC1 pathway and schizophrenia led to recognition of novel variants in NDEL1, PDE4B and PDE4D that significantly either increased or decreased the risk for schizophrenia. Further, we found evidence that DISC1 itself has a significant role in the human mental functioning even in the healthy population. Variants in DISC1 had a significant effect on anhedonia which is a trait present at everybody but is in its severe form one of the main symptoms of schizophrenia and correlates with the risk of developing the disorder. Further, utilizing genome-wide marker data, we recognized three genes; MIR620; CCDC141 and LCT; that are closely related to the DISC1 pathway but which effects on anhedonia were observable only at the individuals who carried these specific DISC1 variants. Our findings significantly add up to the previous evidence for the involvement of DISC1 and the DISC1 pathway in the etiology of schizophrenia and psychosis. Our results support the concept of a number of DISC1 pathway related genes contributing in the etiology of schizophrenia along with DISC1 and provide new candidates for the studies of schizophrenia. Our findings also significantly increase the importance of DISC1 itself as having a role in psychological functioning in the general population.

The white-rot fungi Phlebia radiata and Dichomitus squalens in wood-based cultures: expression of laccases, lignin peroxidases, and oxalate decarboxylase

Basidiomycetous white-rot fungi are the only organisms that can efficiently decompose all the components of wood. Moreover, white-rot fungi possess the ability to mineralize recalcitrant lignin polymer with their extracellular, oxidative lignin-modifying enzymes (LMEs), i.e. laccase, lignin peroxidase (LiP), manganese peroxidase (MnP), and versatile peroxidase (VP). Within one white-rot fungal species LMEs are typically present as several isozymes encoded by multiple genes. This study focused on two effi cient lignin-degrading white-rot fungal species, Phlebia radiata and Dichomitus squalens. Molecular level knowledge of the LMEs of the Finnish isolate P. radiata FBCC43 (79, ATCC 64658) was complemented with cloning and characterization of a new laccase (Pr-lac2), two new LiP-encoding genes (Pr-lip1, Pr-lip4), and Pr-lip3 gene that has been previously described only at cDNAlevel. Also, two laccase-encoding genes (Ds-lac3, Ds-lac4) of D. squalens were cloned and characterized for the first time. Phylogenetic analysis revealed close evolutionary relationships between the P. radiata LiP isozymes. Distinct protein phylogeny for both P. radiata and D. squalens laccases suggested different physiological functions for the corresponding enzymes. Supplementation of P. radiata liquid culture medium with excess Cu2+ notably increased laccase activity and good fungal growth was achieved in complex medium rich with organic nitrogen. Wood is the natural substrate of lignin-degrading white-rot fungi, supporting production of enzymes and metabolites needed for fungal growth and the breakdown of lignocellulose. In this work, emphasis was on solid-state wood or wood-containing cultures that mimic the natural growth conditions of white-rot fungi. Transcript analyses showed that wood promoted expression of all the presently known LME-encoding genes of P. radiata and laccase-encoding genes of D. squalens. Expression of the studied individual LME-encoding genes of P. radiata and D. squalens was unequal in transcript quantities and apparently time-dependent, thus suggesting the importance of several distinct LMEs within one fungal species. In addition to LMEs, white-rot fungi secrete other compounds that are important in decomposition of wood and lignin. One of these compounds is oxalic acid, which is a common metabolite of wood-rotting fungi. Fungi produce also oxalic-acid degrading enzymes of which the most widespread is oxalate decarboxylase (ODC). However, the role of ODC in fungi is still ambiguous with propositions from regulation of intra and extracellular oxalic acid levels to a function in primary growth and concomitant production of ATP. In this study, intracellular ODC activity was detected in four white-rot fungal species, and D. squalens showed the highest ODC activity upon exposure to oxalic acid. Oxalic acid was the most common organic acid secreted by the ODC-positive white-rot fungi and the only organic acid detected in wood cultures. The ODC-encoding gene Ds-odc was cloned from two strains of D. squalens showing the first characterization of an odc-gene from a white-rot polypore species. Biochemical properties of the D. squalens ODC resembled those described for other basidiomycete ODCs. However, the translated amino acid sequence of Ds-odc has a novel N-terminal primary structure with a repetitive Ala-Ser-rich region of ca 60 amino acid residues in length. Expression of the Ds-odc transcripts suggested a constitutive metabolic role for the corresponding ODC enzyme. According to the results, it is proposed that ODC may have an essential implication for the growth and basic metabolism of wood-decaying fungi.

LIN28B, LIN28A, KISS1, and KISS1R in idiopathic central precocious puberty

Abstract Background Pubertal timing is a strongly heritable trait, but no single puberty gene has been identified. Thus, the genetic background of idiopathic central precocious puberty (ICPP) is poorly understood. Overall, the genetic modulation of pubertal onset most likely arises from the additive effect of multiple genes, but also monogenic causes of ICPP probably exist, as cases of familial ICPP have been reported. Mutations in KISS1 and KISSR, coding for kisspeptin and its receptor, involved in GnRH secretion and puberty onset, have been suggested causative for monogenic ICPP. Variation in LIN28B was associated with timing of puberty in genome-wide association (GWA) studies. LIN28B is a human ortholog of the gene that controls, through microRNAs, developmental timing in C. elegans. In addition, Lin28a transgenic mice manifest the puberty phenotypes identified in the human GWAS. Thus, both LIN28B and LIN28A may have a role in pubertal development and are good candidate genes for monogenic ICPP. Methods Thirty girls with ICPP were included in the study. ICPP was defined by pubertal onset before 8 yrs of age, and a pubertal LH response to GnRH testing. The coding regions of LIN28B, LIN28A, KISS1, and KISS1R were sequenced. The missense change in LIN28B was also screened in 132 control subjects. Results No rare variants were detected in KISS1 or KISS1R in the 30 subjects with ICPP. In LIN28B, one missense change, His199Arg, was found in one subject with ICPP. However, this variant was also detected in one of the 132 controls. No variation in LIN28A was found. Conclusions We did not find any evidence that mutations in LIN28B or LIN28A would underlie ICPP. In addition, we confirmed that mutations in KISS1 and KISS1R are not a common cause for ICPP.

Regulation of Chemokines, CCL3 and CCL4, by interferon gamma and Nitric oxide synthase 2 in mouse macrophages and during Salmonella enterica Serovar Typhimurium infection

Background. Interferon gamma (IFN-gamma) increases the expression of multiple genes and responses; however, the mechanisms by which IFN-gamma downmodulates cellular responses is not well understood. In this study, the repression of CCL3 and CCL4 by IFN-gamma and nitric oxide synthase 2 (NOS2) in macrophages and upon Salmonella typhimurium infection of mice was investigated. Methods. Small molecule regulators and adherent peritoneal exudates cells (A-PECs) from Nos2(-/-)mice were used to identify the contribution of signaling molecules during IFN-gamma-mediated in vitro regulation of CCL3, CCL4, and CXCL10. In addition, infection of bone marrow-derived macrophages (BMDMs) and mice (C57BL/6, Ifn-gamma(-/), and Nos2(-/-)) with S. typhimurium were used to gain an understanding of the in vivo regulation of these chemokines. Results. IFN-gamma repressed CCL3 and CCL4 in a signal transducer and activator of transcription 1 (STAT1)-NOS2-p38 mitogen activated protein kinase (p38MAPK)-activating transcription factor 3 (ATF3) dependent pathway in A-PECs. Also, during intracellular replication of S. typhimurium in BMDMs, IFN-gamma and NOS2 repressed CCL3 and CCL4 production. The physiological roles of these observations were revealed during oral infection of mice with S. typhimurium, wherein endogenous IFN-gamma and NOS2 enhanced serum amounts of tumor necrosis factor alpha and CXCL10 but repressed CCL3 and CCL4. Conclusions. This study sheds novel mechanistic insight on the regulation of CCL3 and CCL4 in mouse macrophages and during S. typhimurium oral infection.

Engineering nucleic acid mechanisms for regulation and readout of gene expression : conditional Dicer substrate formation and sensitive multiplexed northern blots

Nucleic acids are most commonly associated with the genetic code, transcription and gene expression. Recently, interest has grown in engineering nucleic acids for biological applications such as controlling or detecting gene expression. The natural presence and functionality of nucleic acids within living organisms coupled with their thermodynamic properties of base-pairing make them ideal for interfacing (and possibly altering) biological systems. We use engineered small conditional RNA or DNA (scRNA, scDNA, respectively) molecules to control and detect gene expression. Three novel systems are presented: two for conditional down-regulation of gene expression via RNA interference (RNAi) and a third system for simultaneous sensitive detection of multiple RNAs using labeled scRNAs.

RNAi is a powerful tool to study genetic circuits by knocking down a gene of interest. RNAi executes the logic: If gene Y is detected, silence gene Y. The fact that detection and silencing are restricted to the same gene means that RNAi is constitutively on. This poses a significant limitation when spatiotemporal control is needed. In this work, we engineered small nucleic acid molecules that execute the logic: If mRNA X is detected, form a Dicer substrate that targets independent mRNA Y for silencing. This is a step towards implementing the logic of conditional RNAi: If gene X is detected, silence gene Y. We use scRNAs and scDNAs to engineer signal transduction cascades that produce an RNAi effector molecule in response to hybridization to a nucleic acid target X. The first mechanism is solely based on hybridization cascades and uses scRNAs to produce a double-stranded RNA (dsRNA) Dicer substrate against target gene Y. The second mechanism is based on hybridization of scDNAs to detect a nucleic acid target and produce a template for transcription of a short hairpin RNA (shRNA) Dicer substrate against target gene Y. Test-tube studies for both mechanisms demonstrate that the output Dicer substrate is produced predominantly in the presence of a correct input target and is cleaved by Dicer to produce a small interfering RNA (siRNA). Both output products can lead to gene knockdown in tissue culture. To date, signal transduction is not observed in cells; possible reasons are explored.

Signal transduction cascades are composed of multiple scRNAs (or scDNAs). The need to study multiple molecules simultaneously has motivated the development of a highly sensitive method for multiplexed northern blots. The core technology of our system is the utilization of a hybridization chain reaction (HCR) of scRNAs as the detection signal for a northern blot. To achieve multiplexing (simultaneous detection of multiple genes), we use fluorescently tagged scRNAs. Moreover, by using radioactive labeling of scRNAs, the system exhibits a five-fold increase, compared to the literature, in detection sensitivity. Sensitive multiplexed northern blot detection provides an avenue for exploring the fate of scRNAs and scDNAs in tissue culture.

药用野生稻复合体（稻属）的分子系统发育与进化研究

稻属（Oryza L.）隶属于禾本科（Gramineae）Ehrhartoideae亚科的稻族（Oryzeae），包括两个栽培种（亚洲栽培稻O. sativa和非洲栽培稻O. glaberrima）和大约20多个野生种，广布于热带亚洲、非洲、大洋洲、中美洲和南美洲。药用野生稻复合体（O. officinalis complex）是稻属中最大、也是最复杂的一个复合体，共包括9个种，含有5种染色体组类型（B、C、BC、CD 和E）。作为栽培稻品质改良的重要基因库，药用野生稻复合体在稻属中具有重要的地位。但是，相似的形态和重叠的地理分布使部分物种的分类和鉴定一直较为困难;种内染色体组构成和倍性的不同更增加了分类鉴定的复杂性。这种情况阻碍了对这些野生稻遗传优势的有效利用。另外，由于物种间断分布和缺乏明确的二倍体亲本等原因，药用野生稻复合体内的异源多倍体起源一直存在争议。本文通过细胞核乙醇脱氢酶基因（Adh）和nrDNA的内转录间隔区（ITS）限制性片段长度多态性（RFLP）分析;叶绿体matK 基因、trnL 内含子和trnL-trnF 基因间隔区、核基因Adh和GPA1以及核糖体DNA ITS片段等序列比较的方法，对药用野生稻复合体中染色体组和物种的鉴定、种间系统发育关系，以及异源多倍体CCDD物种的起源和多倍体ITS的分子进化等进行了研究。主要研究结果如下： 1． 利用核Adh 基因限制性片段长度多态性，检测了来自国际水稻研究所基因库的64份药用野生稻复合体的样品。结果证明，所有O. rhizomatis样品都是含C染色体组的二倍体，所有O. minuta样品都是含BC 染色体组的四倍体。但是，种子库中鉴定为O. officinalis、O. punctata和O. eichingeri的样品中，同时都发现了含C染色体组的二倍体和含BC染色体组的四倍体。四倍体的O. officinalis只在印度分布，而且曾被描述为另一个种O. malampuzhaensis。 四倍体的O. punctata，也被一些学者称为O. schweinfurthiana，被发现和其二倍体一样分布广泛。值得注意的是，有两个曾被作为O. officinalis 四倍体的样品实际上是含有CD染色体组的物种O. latifolia。我们的结果增进了对国际水稻研究所种子库中部分野生稻样品染色体组构成的理解, 纠正了以往对药用野生稻复合体样品的错误鉴定，为今后进一步研究和利用这部分资源提供了种质编目的重要基础。 2． 对稻属中代表不同地理分布区的、含CD染色体组的11个样品（包括77个克隆）的ITS片段进行了测序。基于这些ITS序列的限制性片段长度多态性，提出一个快速而可靠的区分稻属CD 染色体组物种的方法。这个方法的具体步骤是：（1）利用通用引物扩增ITS 片段;（2）利用限制性内切酶FokI和/或DraⅢ消化PCR扩增产物;（3）用1%的琼脂糖胶电泳并根据消化产物的片段长度多态性来区分不同物种。 3． 利用包括两个叶绿体片段（matK和 trnL-trnF）、nrDNA内转录间隔区（ITS）和三个核基因（Adh1、Adh2和GPA1）的同源序列分析，探讨了药用野生稻复合体中二倍体物种和它们所代表的染色体组之间的系统发育关系。独立和合并的基因系统发育树都显示了一致的结果，即C染色体组和B染色体组的亲缘关系要比它们和E染色体组的近。三个含C染色体组的二倍体中，O. officinalis 和O. rhizomatis表现出较近的亲缘关系。值得注意的是，在O. eichingeri种内，尽管基于多基因的数据支持来自斯里兰卡的样品和来自非洲的样品聚成一个分支，但是较低的支持率表明, 两个地区的样品之间存在着较高的遗传分化。 4． 稻属中含CD染色体组的物种特产于拉丁美洲，包括O. alta、 O. grandiglumis 和O. latifolia。由于具有相同的染色体组类型、相似的形态特征和重叠的地理分布，这3个物种间的系统发育关系一直存在争论。另外，因为美洲大陆上没有含C和D染色体组的二倍体物种存在，对这些含CD染色体组物种的可能起源也有不同的假设被提出。使这个问题更具挑战性的是，尽管开展了世界范围的收集，至今仍没有找到含D 染色体组的二倍体物种。在本研究中，代表含C、CD和E染色体组以及含G染色体组的外类群共7个物种，共15份样品的2个叶绿体片段（matK和trnL-trnF）和3个核基因（Adh1，Adh2 和 GPA1）部分片段被测序。基于简约法、距离法和最大似然法的系统发育分析都充分支持含CD染色体组的物种起源于一次杂交事件的推论，并且显示，在物种形成时，含C染色体组的物种（O. officinalis 或O. rhizomatis 而非O. eichingeri）可能承担了母本，而含E染色体组的物种（O. australiensis）则可能承担了父本。另外，CCDD物种间非常一致的系统发育关系表明，非常大的分歧存在于 O. latifolia 和其它两个种（O. alta和O. grandiglumis）之间，这个结果倾向于将后两个种处理为同种或同种下不同分类群。 5． 基于178个克隆序列比较，探讨了ITS在稻属多倍体中的致同进化及其系统学意义。研究发现稻属异源四倍体的ITS存在不同形式的进化方式：首先，非洲BBCC四倍体O. eichingeri和O. punctata 的ITS片段同时保留了双亲拷贝，而且系统发育研究表明，二倍体的O. eichingeri和O. punctata 可能是这两个四倍体的直接祖先;其次，亚洲四倍体O. malampuzhaensis和O. minuta 的ITS仅定向保留母本ITS拷贝;另外，美洲CCDD四倍体的ITS序列发生了双向致同进化，即O. alta和O. grandiglumis的ITS位点一致化成C染色体组类型，而O. latifolia一致化成 D/E 染色体组类型。我们的研究进一步表明在利用ITS片段进行系统发育分析时，特别是涉及异源多倍体时必须慎重。 6． 利用栽培稻的微卫星引物，对含B/C染色体组的6个物种，157个体的SSR位点进行扩增。结果在这些亲缘关系稍远的野生稻中得到7个SSR位点，其中5个位点表现出多态性。比较BB、CC和BBCC物种SSR位点的每位点平均等位基因数A、多态位点百分率P和期望杂合度He ，3项指标发现，四倍体物种的遗传多样性，总体上要高于二倍体物种;二倍体物种内部，O. officnalis的遗传变异最大。另外，以遗传相关性为标准，讨论了B/C染色体组物种间的系统发育关系，同时推测了现存二倍体物种和4个BBCC四倍体物种的遗传关系。

稻族的分子系统学研究

稻族（Oryzeae）是禾本科中包含多种经济植物的重要类群，现有大约12个属，广布于全球的热带和温带地区。虽然有证据表明稻族是一个单系类群，但稻族的分类处理和属间系统发育关系以及稻族的生物地理学等方面仍存在许多悬而未决的问题。本研究利用了7个DNA片段，包括2个叶绿体基因片段（trnL和matK）、1个线粒体基因片段（nad1）和4个分布在不同染色体上的核基因片段（Adh1、Adh2、GPA1和Waxy）以及形态性状（87个）重建了稻族的系统发育关系，并在此基础上利用6个DNA片段（trnL、matK、nad1、Adh1、Adh2和GPA1）探讨了稻属基部类群的系统发育关系。同时在系统发育研究的基础上，进一步探讨了稻族物种间的分歧时间及生物地理学问题。主要结果如下： 1.稻族的系统学 多基因和形态性状的分析表明：1）稻族是单系类群可分为两个主要分支，相当于传统的两个亚族，第一个亚族（Zizaniinae）包括稻属﹑假稻属和Porteresia，而第二个亚族（Oryzinae）包括其余8个属。两性花是稻族的原始状态，而单性花多次起源，共起源了3次，因此单性花和两性花的区别不宜作为划分亚族的依据;2）Zizania 与分布在南美的单型属Rhynchoryza关系最近;3）一些单型属（Hydrochloa、Porteresia和Prosphytochloa）的确立得不到分子证据的支持，特别是Hydrochloa，形态证据分析的结果明确不支持建立该单型属;4）形态分析结果支持Zizania 4个种聚为一支，而东亚的一个种（Zizania latifolia）为该属基部类群。 2.稻属基部类群的系统发育关系 多基因系统发育分析表明：1）稻属是一个单系类群;2）所有数据都支持稻属10种染色体组类型各自为单系，包括稻属中最后确定的染色体组类型HK（Oryza schlechteri和Porteresia coarctata）;3）F染色体组与HK和HJ中的H染色体组关系最近，类似于E染色体组与异源四倍体的CD染色体组中的D染色体组关系最近; 4）双亲遗传的核基因和母系遗传的线粒体和叶绿体基因的对比分析表明，HJ染色体组两个物种的母系来源是H，而HK染色体组两个物种母系来源是K。三个染色体组相比较，H分化较早，J次之，K分化最晚;5）在系统发育研究基础上，本研究认为稻属4个复合体的划分是可信的，原来未划分到任何一个复合体中的两个种O. brachyantha和O. schlechteri以及新近归入稻属的Oryza coarctata都应归入O. ridleyi复合体。 3.稻族各谱系的分化时间及其生物地理学意义 利用分子钟及其改进方法对稻族各谱系的起源和分化时间进行了估测，并在此基础上探讨了形成各类群地理分布式样的可能原因。结果表明，稻族在始新世（Eocene）晚期（3640万年前）起源于东南亚随后分为两大支。稻属基部类群G染色体组物种与稻属其他物种在1200万年前分开;稻属中A/B/C/E染色体组类群在700万年前开始分化。 在稻族的第一大支Oryzinae亚族中，稻属和假稻属1400万年前分开后，通过远程扩散及随后的漫长的历史过程形成了目前的分布格局。稻属从东南亚起源并逐渐扩散到非洲、澳洲及美洲;而假稻属则从非洲出发扩散到全球的热带和亚热带地区。这两个属的演化历史非常相似，都是全球广泛分布且起源时间较晚。 在稻族第二大支Zizaniinae亚族中，Zizania是稻族中唯一欧亚-北美间断分布属，与其分布在南美的姊妹群Rhynchoryza在2554万年前分开，这一支可能是先从南美扩散到东亚，然后再从东亚扩散到北美;Zizaniopsis和Luziola两属在南美洲和北美洲都有分布，其分歧时间为2180万年前，这两属具有类似的进化历史，即通过上新世（Pliocene）末期隆起的巴拿马陆桥形成现在的分布格局;Chikusichola与Potamophila/Prosphytochloa这一支从中新世（Miocene）早期（2270万年前）开始分化，由于Chikusichola（分布在东南亚）、Potamophila（澳大利亚）和Prosphytochloa（非洲）相距很远，这3个属的扩散必然与跨洋远距离扩散有关。

Global transcriptional responses of the toxic cyanobacterium, Microcystis aeruginosa, to nitrogen stress, phosphorus stress, and growth on organic matter

Whole transcriptome shotgun sequencing (RNA-seq) was used to assess the transcriptomic response of the toxic cyanobacterium Microcystis aeruginosa during growth with low levels of dissolved inorganic nitrogen (low N), low levels of dissolved inorganic phosphorus (low P), and in the presence of high levels of high molecular weight dissolved organic matter (HMWDOM). Under low N, one third of the genome was differentially expressed, with significant increases in transcripts observed among genes within the nir operon, urea transport genes (urtBCDE), and amino acid transporters while significant decreases in transcripts were observed in genes related to photosynthesis. There was also a significant decrease in the transcription of the microcystin synthetase gene set under low N and a significant decrease in microcystin content per Microcystis cell demonstrating that N supply influences cellular toxicity. Under low P, 27% of the genome was differentially expressed. The Pho regulon was induced leading to large increases in transcript levels of the alkaline phosphatase phoX, the Pst transport system (pstABC), and the sphX gene, and transcripts of multiple sulfate transporter were also significantly more abundant. While the transcriptional response to growth on HMWDOM was smaller (5–22% of genes differentially expressed), transcripts of multiple genes specifically associated with the transport and degradation of organic compounds were significantly more abundant within HMWDOM treatments and thus may be recruited by Microcystis to utilize these substrates. Collectively, these findings provide a comprehensive understanding of the nutritional physiology of this toxic, bloom-forming cyanobacterium and the role of N in controlling microcystin synthesis.

利用多基因转化技术培育重金属超富集植物的研究

植物耐受和积累重金属的细胞学基础是植物细胞内存在一些能够络合和区隔化金属离子的机制。细胞中络合重金属离子最重要的小肽分子是谷胱甘肽(GSH)和植物络合素(PCs)，而YCFⅠ基因编码的ABC-type 液泡膜转运蛋白负责将重金属离子及其与上述小肽形成的复合物转运进入细胞液泡中，即将重金属离子区隔化。植物细胞中合成GSH 和PCs 的关键酶分别是γ－谷氨酰氨半胱氨酸合成酶(GSHⅠ)和植物络合素合酶(PCS)，他们的编码基因分别为GSHⅠ 和PCS 。此外定位于细胞质中的小囊泡上且对二价阳离子的吸收和转运有重要作用的SMF2 蛋白可能也参与重金属离子的区隔化过程。 为了改良植物使之能够应用于清除土壤中的重金属污染，本研究基于植物耐受和积累重金属的细胞学机制，分别将酿酒酵母来源的GSHⅠ、YCFⅠ和SMF2 基因，以及GSHⅠ、YCFⅠ基因分别与镉抗性植物大蒜来源的AsPCSⅠ 基因构建为不同的基因组合表达载体，转化模式植物拟南芥。对不同组合转基因拟南芥的功能分析表明： 1、酵母来源的基因GHSⅠ、YCFⅠ分别在拟南芥中异源超表达可以在一定程度上提高转基因拟南芥耐受、积累重金属的能力;其中GSHⅠ基因在拟南芥超表达可以提高转基因拟南芥合成GSH 的能力，转基因拟南芥细胞中GSH 浓度比野生型增加。 2、将GSHⅠ基因和来自大蒜的AsPCSⅠ基因同时在拟南芥中超表达能够显著提高转基因拟南芥耐受和积累重金属的能力，且积累和耐受能力显著高于分别转GSHⅠ或AsPCSⅠ的单价转基因株系;将YCFⅠ基因和AsPCSⅠ基因同时在拟南芥中超表达也能够显著提高转基因拟南芥耐受和积累重金属的能力，且积累和耐受能力显著高于分别转YCFⅠ或AsPCSⅠ的单价转基因株系。两种双价转基因株系GSHⅠ＋AsPCSⅠ和YCFⅠ＋AsPCSⅠ在积累和耐受不同重金属胁迫方面没有明显差别。 3、将SMF2 基因在拟南芥中异源表达，研究了植物中囊泡转运是否参与了重金属离子的吸收和区隔化过程。研究结果表明：超表达SMF2 基因的拟南芥尽管耐受重金属胁迫的能力与野生型没有明显差异，但其积累重金属的能力显著提高。这为证明植物中小囊泡转运参与重金属转运提供了间接证据。 综上所述，同时将多个参与植物对重金属络合、转运和区隔化作用的关键基因在转基因植物中表达可以提高植物耐受和积累重金属的能力，是培育可用于植物修复的新型工程植物的值得探索的途径。本论文所设计和构建的双价基因组合及其对目标植物的转化，在环境重金属污染的清除中有潜在的应用价值。

Recombination and heterologous expression of allophycocyanin gene in the chloroplast of Chlamydomonas reinhardtii

Heterogeneous expression of multiple genes in the nucleus of transgenic plants requires the introduction of an individual gene and the subsequent backcross to reconstitute multi-subunit proteins or metabolic pathways. In order to accomplish the expression of multiple genes in a single transformation event, we inserted both large and small subunits of allophycocyanin gene (apcA and apcB) into Chlamydomonas reinhardtii chloroplast expression vector, resulting in papc-S. The constructed vector was then introduced into the chloroplast of C. reinhardtii by micro-particle bombardment. Polymerase chain reaction and Southern blot analysis revealed that the two genes had integrated into the chloroplast genome. Western blot and enzyme-linked immunosorbent assay showed that the two genes from the prokaryotic cyanobacteria could be correctly expressed in the chloroplasts of C. reinhardtii. The expressed foreign protein in transformants accounted for about 2%-3% of total soluble proteins. These findings pave the way to the reconstitution of multi-subunit proteins or metabolic pathways in transgenic C. reinhardtii chloroplasts in a single transformation event.

Construction of a Festuca pratensis BAC library for map-based cloning in IFestulolium substitution lines

Iain S. Donnison, Donal M. O Sullivan, Ann Thomas, Peter Canter, Beverley Moore, Ian Armstead, Howard Thomas, Keith J. Edwards and Ian P. King (2005). Construction of a Festuca pratensis BAC library for map-based cloning in Festulolium substitution lines. Theoretical and Applied Genetics, 110 (5) pp.846-851 Sponsorship: BBSRC;BBSRC RAE2008

Structure, function, and phylogeny of the mating locus in the Rhizopus oryzae complex.

The Rhizopus oryzae species complex is a group of zygomycete fungi that are common, cosmopolitan saprotrophs. Some strains are used beneficially for production of Asian fermented foods but they can also act as opportunistic human pathogens. Although R. oryzae reportedly has a heterothallic (+/-) mating system, most strains have not been observed to undergo sexual reproduction and the genetic structure of its mating locus has not been characterized. Here we report on the mating behavior and genetic structure of the mating locus for 54 isolates of the R. oryzae complex. All 54 strains have a mating locus similar in overall organization to Phycomyces blakesleeanus and Mucor circinelloides (Mucoromycotina, Zygomycota). In all of these fungi, the minus (-) allele features the SexM high mobility group (HMG) gene flanked by an RNA helicase gene and a TP transporter gene (TPT). Within the R. oryzae complex, the plus (+) mating allele includes an inserted region that codes for a BTB/POZ domain gene and the SexP HMG gene. Phylogenetic analyses of multiple genes, including the mating loci (HMG, TPT, RNA helicase), ITS1-5.8S-ITS2 rDNA, RPB2, and LDH genes, identified two distinct groups of strains. These correspond to previously described sibling species R. oryzae sensu stricto and R. delemar. Within each species, discordant gene phylogenies among multiple loci suggest an outcrossing population structure. The hypothesis of random-mating is also supported by a 50:50 ratio of plus and minus mating types in both cryptic species. When crossed with tester strains of the opposite mating type, most isolates of R. delemar failed to produce zygospores, while isolates of R. oryzae produced sterile zygospores. In spite of the reluctance of most strains to mate in vitro, the conserved sex locus structure and evidence for outcrossing suggest that a normal sexual cycle occurs in both species.

Coordinated activation of candidate proto-oncogenes and cancer testes antigens via promoter demethylation in head and neck cancer and lung cancer.

BACKGROUND: Epigenetic alterations have been implicated in the pathogenesis of solid tumors, however, proto-oncogenes activated by promoter demethylation have been sporadically reported. We used an integrative method to analyze expression in primary head and neck squamous cell carcinoma (HNSCC) and pharmacologically demethylated cell lines to identify aberrantly demethylated and expressed candidate proto-oncogenes and cancer testes antigens in HNSCC. METHODOLOGY/PRINCIPAL FINDINGS: We noted coordinated promoter demethylation and simultaneous transcriptional upregulation of proto-oncogene candidates with promoter homology, and phylogenetic footprinting of these promoters demonstrated potential recognition sites for the transcription factor BORIS. Aberrant BORIS expression correlated with upregulation of candidate proto-oncogenes in multiple human malignancies including primary non-small cell lung cancers and HNSCC, induced coordinated proto-oncogene specific promoter demethylation and expression in non-tumorigenic cells, and transformed NIH3T3 cells. CONCLUSIONS/SIGNIFICANCE: Coordinated, epigenetic unmasking of multiple genes with growth promoting activity occurs in aerodigestive cancers, and BORIS is implicated in the coordinated promoter demethylation and reactivation of epigenetically silenced genes in human cancers.

The Ets transcription factors of the PEA3 group: Transcriptional regulators in metastasis

The PEA3 group is composed of three highly conserved Ets transcription factors: Erm, Er81, and Pea3. These proteins regulate transcription of multiple genes, and their transactivating potential is affected by post-translational modifications. Among their target genes are several matrix metalloproteases (MMPs), which are enzymes degrading the extracellular matrix during normal remodelling events and cancer metastasis. In fact, PEA3-group genes are often over-expressed in different types of cancers that also over-express these MMPs and display a disseminating phenotype. Experimental regulation of the synthesis of PEA3 group members influences the metastatic process. This suggests that these factors play a key role in metastasis. © 2006 Elsevier B.V. All rights reserved.