Analysis of the flt-1 Gene Encoding a ECM Protein, Flectin, in Caenorhabditis elegans

Flectin is a new type of extracellular matrix protein and its function was suggested to provide a micro-environment of great elasticity. The C. elegans genome database revealed the presence of a flectin homologue, flt-1, which shows approximately 40% similarity (20% identity) to chick flectin. Here we propose a new gene structure for the flt-1 based on our experiments and the partial cDNA clones obtained from Y. Kohara and further suggest that the previous gene prediction is incorrect. FLT-1 is shown to be expressed in various neurons, hypodermal cells, distal tip cells and vulva epithelial cells. Immunostaining results with anti-FLT-1 antibody, further confirm the FLT-1 expression in vulva epithelial cells. The lipophilic dye, DiI, was used to identify the head neurons expressing GFP and results indicated that none of the head neurons expressing GFP are the 6 chemosensory neurons. In order to determine the function of flt-1 gene, RNA-mediated interference (RNAi) experiments were conducted.     

Drosophilarhythms: from brain to behavior

Theperiod(per) gene and thetimeless(tim) gene are essential components of the circadian clock inDrosophila melanogaster. Both gene products interact in interdependent feedback loops, producing a self-sustained cellular rhythmin situ. Several oscillating cells are combined to discrete pacemaker centers that control rhythmic behavior. This paper reviews the work on localizing the circadian pacemaker neurons controlling activity and eclosion, leading to questions about how these pacemaker cells are synchronized to the external light–dark cycle, and how they impose periodicity on behavior. The circadian system ofDrosophilais also compared with that of other arthropods.     

Placental failure and impaired vasculogenesis result in embryonic lethality for neuropathy target esterase-deficient mice

Age-dependent neurodegeneration resulting from widespread apoptosis of neurons and glia characterize the Drosophila Swiss Cheese (SWS) mutant. Neuropathy target esterase (NTE), the vertebrate homologue of SWS, reacts with organophosphates which initiate a syndrome of axonal degeneration. NTE is expressed in neurons and a variety of nonneuronal cell types in adults and fetal mice. To investigate the physiological functions of NTE, we inactivated its gene by targeted mutagenesis in embryonic stem cells. Heterozygous NTE(+/-) mice displayed a 50% reduction in NTE activity but underwent normal organ development. Complete inactivation of the NTE gene resulted in embryonic lethality, which became evident after gastrulation at embryonic day 9 postcoitum (E9). As early as E7.5, mutant embryos revealed growth retardation which did not reflect impaired cell proliferation but rather resulted from failed placental development; as a consequence, massive apoptosis within the developing embryo preceded its resorption. Histological analysis indicated that NTE is essential for the formation of the labyrinth layer and survival and differentiation of secondary giant cells. Additionally, impairment of vasculogenesis in the yolk sacs and embryos of null mutant conceptuses suggested that NTE is also required for normal blood vessel development.     

Expression of Zkrml2, a homologue of the Krml1/val segmentation gene, during embryonic patterning of the zebrafish (Danio rerio)

We have identified Zkrml2, a novel homologue of the segmentation gene Krml/val in zebrafish (Danio rerio). Zkrml2 shows 72% and 92% identity in its basic leucine zipper domain with mouse Krml1 and zebrafish val, respectively. Zkrml2 is expressed coincident with MyoD throughout the somites starting at the three somite stage, becomes restricted to the dermomyotome, and subsequently disappears. Transient expression is also detected in the reticulospinal and oculomotor neurons. Zkrml2 maps to the Oregon linkage group 11 (Boston Linkage group 14) with no mapped zebrafish mutations nearby.     

The Drosophila homolog of human AF10/AF17 leukemia fusion genes (Dalf) encodes a zinc finger/leucine zipper nuclear protein required in the nervous system for maintaining EVE expression and normal growth

Sibling neurons in the embryonic central nervous system (CNS) of Drosophila can adopt distinct states as judged by gene expression and axon projection. In the NB4-2 lineage, two even-skipped (eve)-expressing sibling neuronal cells, RP2 and RP2sib, are formed in each hemineuromere. Throughout embryogenesis, only RP2, but not RP2sib, maintains eve expression. In this report, we describe a P-element induced mutation that alters the expression pattern of EVE in RP2 motoneurons in the Drosophila embryonic CNS. The mutation was mapped to a Drosophila homolog of human AF10/AF17 leukemia fusion genes (alf), and therefore named Dalf. Like its human counterparts, Dalf encodes a zinc finger/leucine zipper nuclear protein that is widely expressed in embryonic and larval tissues including neurons and glia. In Dalf mutant embryos, the RP2 motoneuron no longer maintains EVE expression. The effect of the Dalf mutation on EVE expression is RP2-specific and does not affect other characteristics of the RP2 motoneuron. In addition to the embryonic phenotype, Dalf mutant larvae are retarded in their growth and this defect can be rescued by the ectopic expression of a Dalf transgene under the control of a neuronal GAL4 driver. This indicates a requirement for Dalf function in the nervous system for maintaining gene expression and the facilitation of normal growth.     

Specification of Primary Pigment Cell and Outer Photoreceptor Fates byBarH1Homeobox Gene in the DevelopingDrosophilaEye

In the developingDrosophilaeye,BarH1andBarH2, paired homeobox genes expressed in R1/R6 outer photoreceptors and primary pigment cells, are essential for normal eye morphogenesis. Here, we show evidence thatBarH1ectopically expressed under the control of thesevenlessenhancer (sev-BarH1) causes two types of cone cell transformation: transformation of anterior/posterior cone cells into outer photoreceptors and transformation of equatorial/polar cone cells into primary pigment cells.sev-BarH1repressed the endogenous expression of theroughhomeobox gene in R3/R4 photoreceptors, while theBarH2homeobox gene was activated bysev-BarH1in an appreciable fraction of extra outer photoreceptors. In primary pigment cells generated by cone cell transformation, the expression ofcut,a homeobox gene specific to cone cells, was completely replaced with that ofBarhomeobox genes. Extra outer photoreceptor formation was suppressed and enhanced, respectively, by reducing the activity of Ras/MAPK signaling and by dosage reduction ofyan,a negative regulator of the pathway, suggesting interactions betweenBarhomeobox genes (cell fate determinants) and Ras/MAPK signaling in eye development.     

Cloning of HumanENC-1and Evaluation of Its Expression and Regulation in Nervous System Tumors

We recently identified and characterized a novel murine gene,ENC-1,that is expressed primarily in the nervous system and encodes an actin-binding protein. To gain insight into a potential role forENC-1gene in the processes of cell differentiation and malignant transformation in the human nervous system, we first cloned and characterized the human homologue ofENC-1.The humanENC-1gene appeared to be highly expressed in adult brain and spinal cord, and in a number of cell lines derived from nervous system tumors we detected low steady-state levels ofENC-1mRNA. We used a neuroblastoma differentiation model, the retinoic acid-induced neuronal differentiation of SMS-KCNR cells, to study the regulation of theENC-1gene during neural crest cell differentiation. We found that the expression ofENC-1increased dramatically in the differentiated SMS-KCNR cells as compared to control undifferentiated cells. These results suggest thatENC-1expression plays a role during differentiation of neural crest cells and may be down regulated in neuroblastoma tumors.     

Genetic modification in the cyclin gene from a Nicotiana interspecific hybrid: role of the GTcyc gene in tumorization process

The organistic constitution of genetic tumors probably causes the constituent cells to undergo genetic change from normal growth to abnormal, a relatively undifferentiated proliferation. We report here that the cyclin GTcyc gene, isolated from genetic tumors yielded notably intense bands while those from the parental DNA were less expressed. In a similar fashion, Northern blot analysis revealed that the genetic tumors expressed high levels of GTcyc relative to non-tumor hybrid tissues. Furthermore, RAPD data showed that the genetic relationships between tumor tissues and their parents did not present a highly corresponding match, suggesting that tumor growth may relate to the genetic modification or hybridization-related genome reorganization. Taken together, the cyclin gene performs a critical role in cell cycle progression, and this particular gene (GTcyc) may be a potential factor in tumor formations, resulting in gene alterations or gains, or changes to specific genomic regions.     

<Emphasis Type="Italic">kitb</Emphasis>, a second zebrafish ortholog of mouse <Emphasis Type="Italic">Kit</Emphasis>

The large numbers of duplicated pairs of genes in zebrafish compared to their mammalian counterparts has lead to the notion that expression of zebrafish co-orthologous pairs in some cases can together describe the expression of their mammalian counterpart. Here, we explore this notion by identification and analysis of a second zebrafish ortholog of the mammalian Kit receptor tyrosine kinase (kitb). We show that in embryos, kitb is expressed in a non-overlapping pattern to that of kita, in the anterior ventral mesoderm, Rohon-beardRohon–Beard neurons, the otic vesicle, and trigeminal ganglia. The expression pattern of kita and kitb in zebrafish together approximates that of Kit in mouse, with the exception that neither zebrafish kit gene is expressed in primordial germ cells, a site of kit expression in the mouse embryo. In addition, zebrafish kita is expressed in a site of zebrafish primitive hematopoiesis but not required for blood development, and we fail to detect kitb expression in sites of zebrafish hematopoiesis. Thus, the expression and function of zebrafish kit genes cannot be described as a simple partition of the expression and function of mouse Kit. We discuss the possibility that these unaccounted for expression domains and functions are derived from more ancestral gene duplications and partitioning instead of the relatively recent teleost teleost-specific duplication. Electronic supplementary material Electronic supplementary material is available for this article at and accessible for authorised users.     

The Molecular Phylogeny of a Nematode-Specific Clade of Heterotrimeric G-Protein α-Subunit Genes

In animal olfactory systems, odorant molecules are detected by olfactory receptors (ORs). ORs are part of the G-protein-coupled receptor (GPCR) superfamily. Heterotrimeric guanine nucleotide binding G-proteins (G-proteins) relay signals from GPCRs to intracellular effectors. G-proteins are comprised of three peptides. The G-protein α subunit confers functional specificity to G-proteins. Vertebrate and insect Gα-subunit genes are divided into four subfamilies based on functional and sequence attributes. The nematode Caenorhabditis elegans contains 21 Gα genes, 14 of which are exclusively expressed in sensory neurons. Most individual mammalian cells express multiple distinct GPCR gene products, however, individual mammalian and insect olfactory neurons express only one functional odorant OR. By contrast C. elegans expresses multiple ORs and multiple Gα subunits within each olfactory neuron. Here we show that, in addition to having at least one member of each of the four mammalian Gα gene classes, C. elegans and other nematodes also possess two lineage-specific Gα gene expansions, homologues of which are not found in any other organisms examined. We hypothesize that these novel nematode-specific Gα genes increase the functional complexity of individual chemosensory neurons, enabling them to integrate odor signals from the multiple distinct ORs expressed on their membranes. This neuronal gene expansion most likely occurred in nematodes to enable them to compensate for the small number of chemosensory cells and the limited emphasis on cephalization during nematode evolution. [Reviewing Editor: Dr. John Oakeshott] Damien M. O’Halloran and David A. Fitzpatrick contributed equally to this work.     

Stable transformation of insect cells to coexpress a rapidly selectable marker gene and an inhibitor of apoptosis

Summary We have constructed several plasmid expression vectors to express foreign genes in stably transformed insect cells. Unlike baculovirus-based expression vectors by which genes of interest are expressed transiently before lysis of the virus-infected cells, genes can be expressed continuously over many passages in a stable cell line. Furthermore, the function of a gene or genes expressed in a stable cell line from an insect-specific promoter that is constitutively expressed can be studied in the absence of virus infection and viral gene expression. In this study, we have expressed a novel, selectable marker gene, puromycin acetyltransferase, under the control of the Drosophila melanogaster hsp70 promoter or under the control of the AcMNPV ie-1 promoter which is active in Spodoptera frugiperda cells in the absence of virus infection. In addition, we have constructed expression vectors which coexpress two genes from separate promoters, the pac gene which confers resistance to puromycin and a baculovirus gene which inhibits apoptosis, derived from Orygia pseudotsugata nuclear polyhedrosis virus. Both genes were expressed in stable populations of S. frugiperda cells in the absence of continuous drug selection.     

Region- and cell type-selective expression of the evolutionarily conserved Nolz-1/zfp503 gene in the developing mouse hindbrain

Nolz-1/Zfp503, a zinc finger-containing gene, is a mammalian member of the SP1-related nocA/elb/tlp-1 gene family. Previous studies have shown that Nolz-1 homologs are important for patterning the rhombomeres in zebrafish hindbrain. We therefore studied the expression pattern of Nolz-1 in the developing mouse hindbrain. Nolz-1 mRNA expression was detected in the prospective rhombomere 3, 5 and caudal regions as early as E8.75. After E11.5, Nolz-1-positive cells were organized as distinct cell clusters, and they were largely non-overlapped with either Pax2-positive or Phox2b-positive domains. Most interestingly, we found that Nolz-1 was specifically expressed by Phox2b-negative/Isl1/2-positive somatic motor neurons, but not by Phox2b-positive/Isl1/2-positive branchial and visceral motor neurons, suggesting that Nolz-1 may regulate development of somatic motor neurons in the hindbrain. In addition to be expressed in differentiating post-mitotic neurons, Nolz-1 was also expressed by progenitor cells in the ventricular zone located in the dorsal part of aqueduct and the alar plates of hindbrain, which suggests a regulatory role of Nolz-1 in the germinal zone. Taken together, based on its domain- and cell type-selective pattern, Nolz-1 may involve in regulation of various developmental processes, including regional patterning and cell-type specification and differentiation in the developing mouse hindbrain.     

The invertebrate microtubule-associated protein PTL-1 functions in mechanosensation and development in <Emphasis Type="Italic">Caenorhabditis elegans</Emphasis>

PTL-1, a microtubule-associated protein of the structural MAP2/tau family, is the sole member of this gene family in Caenorhabditis elegans. Sequence analysis of available invertebrate genomes revealed a number of single, putative tau-like genes with high similarity to ptl-1. The ptl-1 gene is expressed in a number of cells, most notably mechanosensory neurons. We examined the role of ptl-1 in C. elegans in adult neurons as well as during development. A ptl-1 knockout strain of worms exhibited an egg-hatching defect, as well as a reduced sensitivity to touch stimuli. In addition, the knockout allele ptl-1(ok621) acts as a dominant enhancer of several temperature-sensitive alleles of mec-7 and mec-12, which code the isoforms of β-tubulin and α-tubulin that together form the unusual 15 protofilament microtubules involved in touch sensation. These results demonstrate for the first time a functional role for this microtubule-associated protein in nematodes and suggest that PTL-1 is involved in mechanosensation as well as some aspect of embryogenesis.     

biparous:A Novel bHLH Gene Expressed in Neuronal and Glial Precursors inDrosophila

Genetic studies have uncovered many genes that are involved in the first steps of neuronal development inDrosophila.Less is known about the intermediate steps during which individual precursor cells follow either the neuronal pathway or the glial pathway. We report the identification of a novel bHLH gene,biparous,expressed in neuronal and glial precursors inDrosophila.Unlike most bHLH genes,biparousexpression continues to the final stages of neurogenesis in the embryo. Expression ofbiparousis not observed in end stage postmitotic neurons and precedes the expression ofrepo,a gene activated in later stages of glial differentiation. The bHLH domain is sufficiently different from previously described bHLH domains to imply a novel function.     

Further characterization of the PW peptide family that inhibits neuron differentiation in <Emphasis Type="Italic">Hydra</Emphasis>

From an evolutionary point of view, Hydra has one of the most primitive nervous systems among metazoans. Two different groups of peptides that affect neuron differentiation were identified in a systematic screening of peptide signaling molecules in Hydra. Within the first group of peptides, a neuropeptide, Hym-355, was previously shown to positively regulate neuron differentiation. The second group of peptides encompasses the PW family of peptides that negatively regulate neuron differentiation. In this study, we identified the gene encoding PW peptide preprohormone. Moreover, we made the antibody that specifically recognizes LPW. In situ hybridization and immunohistochemical analyses showed that the PW peptides and the gene encoding them were expressed in ectodermal epithelial cells throughout the body except for the basal disk. The PW peptides are produced by epithelial cells and are therefore termed “epitheliopeptides.” Together with Hym-355, the PW family peptides mediate communication between neurons and epithelial cells and thereby maintain a specific density of neurons in Hydra. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. Toshio Takahashi, Osamu Koizumi equally contributed to this study.     

森林草莓SUN基因家族的鉴定及其对逆境的响应

SUN基因是调控植物生长发育的关键基因。本研究鉴定了二倍体森林草莓(Fragaria vesca)的SUN基因家族,并对各成员的理化性质、基因结构、系统进化以及基因表达进行了分析。结果表明,森林草莓有31个FvSUN基因,其编码蛋白可聚类为7个组,同一组内成员具有高度相似的基因结构与编码蛋白保守域;FvSUNs蛋白的亚细胞定位主要在细胞核中。共线性分析表明森林草莓FvSUNs基因家族主要通过染色体片段复制产生,拟南芥与森林草莓存在23对直系同源基因。利用森林草莓的转录组数据,对FvSUNs基因的组织表达特征进行分析,发现主要可归为3类：各组织均表达、组织中几乎不表达、组织特异性表达,并通过实时荧光定量PCR (quantitative real-time polymerase chain reaction, qRT-PCR)进一步验证结果。此外,还对森林草莓进行不同的逆境胁迫处理,qRT-PCR分析了31个FvSUNs基因的表达情况,发现大部分基因均在不同程度上受低温、高盐或干旱胁迫的诱导表达。这些研究结果为深入揭示草莓SUN基因的生物学功能及其分子机制奠定了基础。     

Characterization of CaGSP1, the Candida albicans RAN/GSP1 homologue

Gsp1p is a small nuclear-located GTP binding protein from the yeast Saccharomyces cerevisiae. It is highly conserved among eucaryotic cells and is involved in numerous cellular processes, including nucleocytoplasmic trafficking of macromolecules. To learn more about the GSP1 structure/function, we have characterized its Candida albicans homologue. CaGsp1p is 214 amino acids long and displays 91% identity to the ScGsp1p. There is functional complementation in S. cerevisiae, and its mRNA is constitutively expressed in the diploid C. albicans grown under various physiological conditions. Disruption of both alleles was not possible, suggesting that it could be an essential gene, but heterozygous mutants exhibited genomic instability.