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1.
Summary Choline acetyltransferase (ChAT, EC 2.3.1.6) catalyzes the production of the neurotransmitter acetylcholine, and is an essential factor for neurons to be cholinergic. We have analyzed regulation of the Drosophila ChAT gene during development by examining the -galactosidase expression pattern in transformed lines carrying different lengths of 5 flanking DNA fused to a lacZ reporter gene. The largest fragment tested, 7.4 kb, resulted in the most extensive expression pattern in embryonic and larval nervous system and likely reflects all the cis-regulatory elements necessary for ChAT expression. We also found that 5 flanking DNA located between 3.3 kb and 1.2 kb is essential for the reporter gene expression in most of the segmentally arranged embryonic sensory neurons as well as other distinct cells in the CNS. The existence of negative regulatory elements was suggested by the observation that differentiating photoreceptor cells in eye imaginal discs showed the reporter gene expression in several 1.2 kb and 3.3 kb transformants but not in 7.4 kb transformants. Furthermore, we have fused the 5 flanking DNA fragments to a wild type ChAT cDNA and used these constructs to transform Drosophila with a Cha mutant background. Surprisingly, even though different amounts of 5 flanking DNA resulted in different spatial expression patterns, all of the positively expressing cDNA transformed lines were rescued from lethality. Our results suggest that developmental expression of the ChAT gene is regulated both positively and negatively by the combined action of several elements located in the 7.4 kb upstream region, and that the more distal 5 flanking DNA is not necessary for embryonic survival and development to adult flies.
Correspondence to: P.M. Salvaterra 相似文献
2.
Choline acetyltransferease (ChAT) is the enzyme catalyzing the biosynthesis of acetylcholine and is considered to be a phenotypically specific marker for cholinergic neurons. We have examined the distribution of ChAT-expressing neurons in the larval nervous system of Drosophila melanogaster by three different but complementary techniques: in situ hybridization with a cRNA probe to ChAT messenger RNA, immunocytochemistry using a monoclonal anti-ChAT antibody, and X-gal staining of transformed animals carrying a reporter gene composed of 7.4 kb of 5 flanking DNA from the ChAT gene fused to a lacZ reporter gene. All three techniques demonstrated ChAT-expressing neurons in the larval visual system. In embryos, the photoreceptor organ (Bolwig's organ) exhibited strong cRNA hybridization signals. The optic lobe of late third-instar larvae displayed ChAT immunoreactivity in Bolwig's nerve and a neuron close to the insertion site of the optic stalk. This neuron's axon ran in parallel with Bolwig's nerve to the larval optic neuropil. This neuron is likely to be a first-order interneuron of the larval visual system. Expression of the lacZ reporter gene was also detected in Bolwig's organ and the neuron stained by anti-ChAT antibody. Our observations indicate that acetylcholine may be a neurotransmitter in the larval photoreceptor cells as well as in a first-order interneuron in the larval visual system of Drosophila melanogaster.This work was supported by a grant from the National Institute of Neurological Disorders and Stroke. 相似文献
3.
Identification and Transgenic Analysis of a Murine Promoter that Targets
Cholinergic Neuron Expression 总被引:3,自引:1,他引:2
Jorge M. Naciff Michael M. Behbehani Hidemi Misawa & John R. Dedman 《Journal of neurochemistry》1999,72(1):17-28
Abstract : Choline acetyltransferase (ChAT) is a specific phenotypic marker of cholinergic neurons. Previous reports showed that different upstream regions of the ChAT gene are necessary for cell type-specific expression of reporter genes in cholinergic cell lines. The identity of the mouse ChAT promoter region controlling the establishment, maintenance, and plasticity of the cholinergic phenotype in vivo is not known. We characterized a promoter region of the mouse ChAT gene in transgenic mice, using β-galactosidase ( LacZ ) as a reporter gene. A 3,402-bp segment from the 5'-untranslated region of the mouse ChAT gene (from -3,356 to +46, +1 being the translation initiation site) was sufficient to direct the expression of LacZ to selected neurons of the nervous system ; however, it did not provide complete cholinergic specificity. A larger fragment (6,417 bp, from -6,371 to +46) of this region contains the requisite regulatory elements that restrict expression of the LacZ reporter gene only in cholinergic neurons of transgenic mice. This 6.4-kb DNA fragment encompasses 633 bp of the 5'-flanking region of the mouse vesicular acetylcholine transporter (VAChT), the entire open reading frame of the VAChT gene, contained within the first intron of the ChAT gene, and sequences upstream of the start coding sequences of the ChAT gene. This promoter will allow targeting of specific gene products to cholinergic neurons to evaluate the mechanisms of diseases characterized by dysfunction of cholinergic neurons and will be valuable in design strategies to correct those disorders. 相似文献
4.
Using 7.4 kb of 5′ flanking DNA from the Drosophila cholinergic gene locus to drive Gal4 expression we can visualize essentially all cholinergic neurons and neuropiles after genetic recombination with a UAS–GFP (S65T) reporter gene. In contrast to previous methods somata and neuropiles can be observed in the same samples. Fluorescence intensity is strong enough to allow observations in live animals at all developmental stages. Three-dimensional reconstructions made from confocal sections of whole-mount preparations reveal the extensive cholinergic connections among various regions of the nervous system. 相似文献
5.
6.
Using 7.4 kb of 5' flanking DNA from the Drosophila cholinergic gene locus to drive Gal4 expression we can visualize essentially all cholinergic neurons and neuropiles after genetic recombination with a UAS-GFP (S65T) reporter gene. In contrast to previous methods somata and neuropiles can be observed in the same samples. Fluorescence intensity is strong enough to allow observations in live animals at all developmental stages. Three-dimensional reconstructions made from confocal sections of whole-mount preparations reveal the extensive cholinergic connections among various regions of the nervous system. 相似文献
7.
8.
Xiaoping Chen Zhangying Wang Jianhua Wang Maoyan Wang Li Zhao Guoying Wang 《Plant Cell, Tissue and Organ Culture》2007,88(1):11-20
ADP-glucose pyrophosphorylase (AGPase) represents a key regulatory step in starch synthesis. A 0.9 kb of 5′ flanking region
preceding Brittle2 gene, encoding the small subunit of maize endosperm AGPase, was cloned from maize genome and its expression pattern was studied
via the expression of β-glucuronidase (GUS) gene in transgenic tobacco. Analysis of GUS activities showed that the 0.9 kb
fragment flanking Brittle2 gene was sufficient for driving the seed-preferred expression of the reporter gene. The activity of the 0.9 kb 5′ flanking
fragment was compared with that of the tandem promoter region from a zein gene (zE19, encoding a maize 19 kDa zein protein). The results indicated that both promoters were seed-preferred in a dicotyledonous
system as tobacco and the activity of zE19 promoter was three to fourfold higher than that of the 0.9 kb fragment flanking Brittle2 gene in transgenic tobacco seeds. At the same time, zE19-driven GUS gene expressed earlier than Brittle2 promoter during seed development. Histochemical location of GUS activity indicated that both promoters showed high expression
in embryos, which is different from similar promoters tested in maize. 相似文献
9.
10.
We use a transgenic mouse model system to elucidate the regulatory regions within the human cholinergic gene locus responsible for vesicular acetylcholine transporter gene expression in vivo. In this report we characterized two transgenes for their ability to confer cholinergic-specific expression of the encoded vesicular acetylcholine transporter. An 11.2 kb transgene (named hV11.2) that spanned from about 5 kb upstream of the start of vesicular acetylcholine transporter translation down to the first choline acetyltransferase coding exon gave expression in the somatomotor neurons and a subpopulation of cholinergic neurons in the medial habenular nucleus. The second transgene (named hV6.7), a 5-prime truncated version of hV11.2 that was devoid of 4.5 kb of gene-regulatory sequences completely lacked vesicular acetylcholine transporter expression in vivo. Our data indicate that vesicular acetylcholine transporter expression in somatomotor neurons and in the medial habenular nucleus is uniquely specified within the cholinergic gene locus, and separable from cholinergic expression elsewhere. The identification of these two subdivisions of the cholinergic nervous system suggests that other cholinergic neurons in the CNS and PNS are similarly regulated by additional discrete domains within the cholinergic gene locus. 相似文献
11.
Misawa H Nakata K Toda K Matsuura J Oda Y Inoue H Tateno M Takahashi R 《Genesis (New York, N.Y. : 2000)》2003,37(1):44-50
The cholinergic gene locus (CGL) consists of the genes encoding the choline acetyltransferase (ChAT) and the vesicular acetylcholine transporter (VAChT). To establish a cholinergic-specific Cre-expressing mouse, we constructed a transgene expression vector (VAChT-Cre) with 11.3 kb human CGL in which a Cre-IRES-EGFP unit was inserted in the VAChT open reading frame. The activity of Cre, whose expression was driven by the VAChT promoter, was examined by crossing a reporter mouse (CAG-CAT-Z) in which expression of LacZ is activated upon Cre-mediated recombination. Transgenic lines with the VAChT-Cre construct displayed the restricted Cre expression in a subset of cholinergic neurons in the somatomotor nuclei and medial habenular nucleus, but absent in visceromotor and other central and peripheral cholinergic neurons. Cre expression was first observed at postnatal day 7 and later detected in approximately 40-60% of somatomotor neurons. Based on the onset of Cre expression, we generated two mouse lines (two alleles; VAChT-Cre. Fast and VAChT-Cre.Slow) in which Cre expression reaches maximal levels fast and slow, respectively. The use of VAChT-Cre mice should allow us to deliver Cre to a subset of postnatal motor neurons, thereby bypassing lethality and facilitating analysis of gene function in adult motor neurons. 相似文献
12.
Tissue-specific and developmental regulation of rod opsin chimeric genes in transgenic mice. 总被引:13,自引:0,他引:13
Chimeric gene fusions between 4.4 kb of rod opsin 5' flanking sequence fused to a diphtheria toxin gene and 4.4 kb or 500 bp of rod opsin 5' flanking sequence fused to the E. coli IacZ gene were used to generate transgenic mice for analysis of cell type-specific expression and temporal and spatial distribution of reporter gene product during retinal development. Opsin-diphtheria toxin transgene expression evoked photoreceptor-specific cell death. The 4.4 kb opsin-IacZ transgene followed temporal and spatial gradients of expression that approximate opsin expression. The 500 bp opsin fragment targeted expression to photoreceptors, but expression was weaker and nonuniform, suggesting that elements located upstream may be required for enhanced and uniform spatial expression. 相似文献
13.
αS1酪蛋白是牛乳中含量最高的酪蛋白.本研究克隆了牛αS1酪蛋白5′调控序列约1.2 kb的片段,应用基因重组技术将其插入 lacZ 基因上游,构建真核表达载体gαs1p psv.胶原酶消化法对奶山羊乳腺上皮细胞进行了分离培养,并用免疫荧光法鉴定了乳腺上皮细胞. 将重组载体转染奶山羊乳腺上皮细胞,在细胞培养液中,转染后24 h可以检测到 lacZ 基因的表达,之后表达水平有逐渐升高的趋势,72 h开始降低,144 h降到最低;在细胞破碎液中,转染后24 h表达水平最高,之后表达水平有逐渐降低的趋势,144 h降到最低.转染细胞的第1代表达水平最高,随细胞传代表达水平降低,传到第3代时基本检测不到表达产物. 对转染后的细胞进行了β 半乳糖苷酶原位细胞染色. 实验证明,得到的牛αS1酪蛋白5′调控序列能指导外源基因在奶山羊乳腺上皮细胞中表达. 相似文献
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15.
A Transgenic Mouse Model to Study Transsynaptic Regulation of Tyrosine Hydroxylase Gene Expression 总被引:3,自引:1,他引:2
Nan Min Tong H. Joh †Eric S. Corp Harriet Baker Joseph F. Cubells Jin H. Son 《Journal of neurochemistry》1996,67(1):11-18
Abstract: Previous studies demonstrated that 9 kb of the rat tyrosine hydroxylase (TH) 5' flanking sequence directed appropriate spatiotemporal expression of a lacZ reporter gene to catecholaminergic cells in the CNS of transgenic mice. In the present study, specificity of transgene expression was further extended to demonstrate cell type-specific functional regulation of lacZ expression using manipulations known to alter endogenous TH expression. Alterations in lacZ reporter expression should parallel changes in endogenous TH levels if the DNA elements mediating these functional changes of TH expression in vivo reside within the 9 kb of the TH promoter region. Naris closure induced an activity-dependent decrease of TH expression in dopaminergic periglomerular cells in the olfactory bulb that was paralleled by down-regulation of lacZ expression in the transgenic mice. Densitometry and image analysis were used to quantify lacZ expression following acute reserpine administration (5 mg/kg, s.c.), which up-regulates endogenous TH. At 48 h postinjection, analysis of OD values indicated a significant increase of X-gal staining in the locus coeruleus and ventral tegmental area but not in the substantia nigra or olfactory bulb of reserpine-treated transgenic animals. These data showed that the 9-kb sequence also mediates cell type-specific transsynaptic regulation of reporter gene expression. Analysis of this transgenic animal offers a useful model system to study in vivo regulation of TH gene expression. 相似文献
16.
McLenachan S Goldshmit Y Fowler KJ Voullaire L Holloway TP Turnley AM Ioannou PA Sarsero JP 《Transgenic research》2008,17(6):1103-1116
The development of homologous recombination methods for the precise modification of bacterial artificial chromosomes has allowed
the introduction of disease causing mutations or fluorescent reporter genes into human loci for functional studies. We have
introduced the EGFP gene into the human PRPH-1 locus to create the Peripherin-EGFP (hPRPH1-G) genomic reporter construct. The hPRPH1-G reporter was used to create transgenic mice with an intrinsically fluorescent peripheral nervous system (PNS). During development,
hPRPH1-G expression was concomitant with the acquisition of neuronal cell fate and growing axons could be observed in whole embryo
mounts. In the adult, sensory neurons were labeled in both the PNS and central nervous system, while motor neurons in the
spinal cord had more limited expression. The fusion protein labeled long neuronal processes, highlighting the peripheral circuitry
of hPRPH1-G transgenic mice to provide a useful resource for a range of neurobiological applications. 相似文献
17.
Cholinergic Neuron-Specific Expression of the Human Choline Acetyltransferase Gene Is Controlled by Silencer Elements 总被引:1,自引:1,他引:0
Abstract: Choline acetyltransferase (ChAT) is specifically expressed in Cholinergic neurons. To identify control mechanisms regulating the cell-specific expression of the gene encoding ChAT, transient expression of the luciferase gene driven by human ChAT gene 5' flanking sequences was compared in cholinergic and noncholinergic cell lines. Analysis of the gene indicated the presence of two regulatory elements with selective silencing activity. These elements, located between nucleotides −2043 to −3347 and nucleotides −3347 to −6550, act cooperatively to repress promoter activity > 10-fold in a human adrenergic neuroblastoma cell line, SHSY5Y, and a human osteosarcoma cell line, 143 TK, while exhibiting less than a two-fold effect in Cholinergic cell lines. Deletion of either nucleotides −2043 to −3347 or nucleotides −3348 to −6550 reduced cell-specific repression by approximately half. Such differential repression appears to be responsible for the selective expression of the ChAT component of the Cholinergic phenotype. 相似文献
18.
Antennal sensory neurons of Manduca sexta emerge from epidermal cells that also give rise to sheath cells surrounding the peripheral parts of the neurons and to glial cells that enwrap the sensory axons in the antennal nerve. Reciprocal interactions between sensory neurons and glial cells are believed to aid in axon growth and guidance, but the exact nature of these interactions is not known. We investigated the possibility of cholinergic interactions in this process by locating muscarinic acetylcholine receptors (mAChRs) and choline acetyltransferase (ChAT) enzyme in cultured antennal sensory neurons and non‐neural cells. ChAT and mAChRs were present in the sensory neurons from the first day in culture. Therefore, the sensory neurons are probably cholinergic, as previously suggested, but they may also be controlled by ACh. In 7‐day‐old cultures a subgroup of small non‐neural cells with processes expressed ChAT activity, and in 14‐day‐old cultures non‐neural cells that formed lamellipodia and scaffoldlike structures on the culture substrate were labeled with ChAT antibody. mAChR activity was detected in similar non‐neural cells but only in areas surrounding the nuclei. In addition, mAChRs were found in flat lamellipodia and filopodia forming cells that were present in 1‐day‐old cultures and grew in size during the 2 week investigation period. These findings suggest muscarinic cholinergic interactions between the neural and non‐neural cells during the development of Manduca antenna. © 2004 Wiley Periodicals, Inc. J Neurobiol, 2005 相似文献
19.
Specific neuronal expression of human NGF receptors in the basal forebrain and cerebellum of transgenic mice 总被引:3,自引:0,他引:3
Transgenic mice carrying multiple copies of the human NGF receptor gene have been generated. Using a monoclonal antibody specific for the human receptor, we have detected specific expression in cholinergic neurons in the basal forebrain and Purkinje cells in the cerebellum during the postnatal period. Expression in the PNS was exemplified by immunostaining of sympathetic and sensory neurons during an early embryonic age. Transection of the sciatic nerve in transgenic animals resulted in induction of human NGF receptors, indicating that the inserted gene can be appropriately regulated. These transgenic mice will provide an opportunity to study the elements regulating the NGF receptor. Furthermore, the ability to obtain specific expression in transgenic mice will permit directed expression of heterologous genes in discrete cells important in the cholinergic septal-hippocampal pathway and the PNS. 相似文献
20.
Gebhard S Hattori T Bauer E Bösl MR Schlund B Pöschl E Adam N de Crombrugghe B von der Mark K 《Histochemistry and cell biology》2007,127(2):183-194
During endochondral ossification hypertrophic chondrocytes in the growth plate of fetal long bones, ribs and vertebrae play
a key role in preparing growth plate cartilage for replacement by bone. In order to establish a reporter gene mouse to facilitate
functional analysis of genes expressed in hypertrophic chondrocytes in this process, Col10a1- BAC reporter gene mouse lines
were established expressing LacZ specifically in hypertrophic cartilage under the control of the complete Col10a1 gene. For
this purpose, a bacterial artificial chromosome (BAC RP23-192A7) containing the entire murine Col10a1 gene together with 200 kb
flanking sequences was modified by inserting a LacZ-Neo cassette into the second exon of Col10a1 by homologous recombination
in E. coli. Transgenic mice containing between one and seven transgene copies were generated by injection of the purified BAC-Col10a1-
lLacZ DNA. X-gal staining of newborns and embryos revealed strong and robust LacZ activity exclusively in hypertrophic cartilage
of the fetal and neonatal skeleton of the transgenic offspring. This indicates that expression of the reporter gene in its
proper genomic context in the BAC Col10a1 environment is independent of the integration site and reflects authentic Col10a1
expression in vivo. The Col10a1 specific BAC recombination vector described here will enable the specific analysis of effector
gene functions in hypertrophic cartilage during skeletal development, endochondral ossification, and fracture callus healing.
Sonja Gebhard and Takako Hattori equally contributed to this work. 相似文献