3G-状况-1
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[1]、下列()不是3G的主要技术标准。
【答案】C【分数】1分【选项】A、WCDMAB、CDMA2000C、GPRSD、TD-SCDMA[2]、移动通信中的单工中继需采用()。
【答案】D【分数】1分【选项】A、一套收发信机,全向天线B、一套收发信机,两副定向天线C、两套收发信机,全向天线D、两套收发信机,两副定向天线[3]、移动通信中的单工通信是指通信双方电台交替地进行收信和发信()。
【答案】A【分数】1分【选项】A、正确B、错误[4]、移动信道中的小尺度衰落由()引起。
【答案】B【分数】1分【选项】A、阴影效应B、多径效应C、同频干扰D、互调干扰[5]、自由空间传播损耗与距离的()次方成正比。
【答案】B【分数】1分【选项】A、1B、2C、3D、4[6]、()是产生多径衰落的主要因素。
【答案】A【分数】1分【选项】A、反射B、绕射C、散射D、直射[7]、阴影衰落服从()分布。
【答案】C【分数】1分【选项】A、均匀分布B、高斯分布C、对数正态分布D、莱斯分布[8]、用()描述移动信道在频率上的色散。
【答案】B【分数】1分【选项】A、功率延迟分布B、多普勒功率谱密度C、角度谱D、阴影效应[9]、功率延迟分布近似为()分步。
【答案】C【分数】1分【选项】A、均匀分布B、高斯分布C、指数分布D、对数正态分布[10]、()既可用于宏蜂窝系统也可用于微蜂窝系统。
【答案】C【分数】1分【选项】A、Hata模型B、CCIR模型C、LEE模型D、COST-231 WI模型[11]、对一个数字移动通信系统而言,信源编码的基本目的是压缩信源产生的冗余信息,降低传递这些不必要的信息的开销,从而提高整个传输链路的有效性()。
【答案】A【分数】1分【选项】A、正确B、错误[12]、跳频信号的数字调制方式,一般采用()方式。
【答案】B【分数】1分【选项】A、ASKB、FSKC、PSKD、QAM[13]、采用FDMA的FDD系统中,要实现一对用户之间的通信需要()频率。
室内空气质量标准》的19个参数中,共采用8个计量单位,即℃、%、m/s、m3/h·人、m g/m3、ng/m3、cfu/m3、Bq/m3,序号参数名称及符号单位符号单位名称1 温度(t) ℃摄氏度2 相对湿度(RH) % 百分数3 空气流量(v) m/s 米每秒4 新风量(a•c•f) m3/h•人立方米每人小时5 二氧化硫(SO2) mg/m3 毫克每立方米6 二氧化氮(NO2) mg/m3 毫克每立方米7 一氧化碳(CO) mg/m3 毫克每立方米8 二氧化碳(CO2) % 百分数9 氨(NH3) mg/m3 毫克每立方米10 臭氧(O3) mg/m3 毫克每立方米11 甲醛(HCHO) mg/m3 毫克每立方米12 苯(C6H6) mg/m3 毫克每立方米13 甲苯(C7H8) mg/m3 毫克每立方米14 二甲苯(C8H10) mg/m3 毫克每立方米15 苯并[a]芘(B(a)P) ng/m3 纳克每立方米16 可吸入颗粒物(PM10) mg/m3 毫克每立方米17 总挥发性有机物(TVOC) mg/m3 毫克每立方米18 菌落总数Cfu/m3 菌落数每立方米19 氡(222Rn)Bq/m3 贝可每立方米一温度(t)空气温度简称气温,它是描述空气冷热程度的物理量。
摄氏温标用符号t表示,单位是:℃;名为摄氏度。
0℃是指在101.325kPa的大气压力下,纯净水的冰点定为0℃。
将此时水的沸点定为100℃。
将0℃至100℃等分100,由此给出的温度t的变化范围为0℃~100℃。
国际单位制(SI)中的SI基本单位是“热力学温度”(T),其单位为开[尔文],单位符号为K。
1K等于水的三相点热力学温度的1/273.15,即T0=293.15K。
由此,按t=T-273.15导出摄氏度。
摄氏度(℃)是用来表示温度时,代替开尔文(K)的一个“专门名称”。
摄氏度间隔或摄氏温度表可用摄氏度(℃)表示,也可以用开尔文(K)表示,即1℃=1K。
Certificate of Analysis Takara Bio USA, Inc.1290 Terra Bella Avenue, Mountain View, CA 94043, USA U.S. Technical Support: ********************United States/Canada 800.662.2566 Asia Pacific+1.650.919.7300Europe+33.(0)1.3904.6880Japan+81.(0)77.565.6999Page 1 of 6Tet-On® 3G Vector Set (with ZsGreen1)Table of ContentsDescription (1)pCMV-Tet3G Vector Information (2)pTRE3G-ZsGreen1 Vector and pTRE3G-Luc Control Vector Information (4)Quality Control Data (6)Catalog No. Lot Number631159 (Not sold separately) Specified on product label.DescriptionThe Tet-On 3G Vector Set (with ZsGreen1) is used to create tightly regulated and highly responsive tetracycline (Tet)-inducible mammalian expression systems that are turned on by the addition of doxycycline to the culture medium. The Tet-On 3G Vector Set (with ZsGreen1) allows the simultaneous expression of a gene of interest and a green fluorescent protein marker.Package Contents•20 μl pCMV-Tet3G Vector (500 ng/μl)•20 μl pTRE3G-ZsGreen1 Vector(500 ng/μl)•20 μl pTRE3G-Luc Control Vector(500 ng/μl)•40 μl Linear Hygromycin Marker (50 ng/μl)•40 μl Linear Puromycin Marker (50 ng/μl)Storage Conditions•Store plasmids at –20°C.•Spin briefly to recover contents.•Avoid repeated freeze/thaw cycles.Shelf Life• 1 year from date of receipt under proper storage conditions.Storage Buffer•10 mM Tris-HCl (pH 8.0), 1 mM EDTA (pH 8.0)Shipping Conditions• Dry ice (–70°C)Product DocumentsDocuments for our products are available for download at /manualsThe following documents apply to this product:•Tet-On 3G Expression Systems User Manual (PT5148-1)pCMV-Tet3G Vector InformationFigure 1. pCMV-Tet3G Vector Map.DescriptionThe pCMV-Tet3G Vector expresses Tet-On 3G, a tetracycline-controlled transactivator that exhibits high activity in the presence of the inducer doxycycline (Dox), and exceptionally low activity in its absence. Tet-On 3G results from the fusion of amino acids 1–207 of a mutant Tet repressor (TetR) to 39 amino acids that form three minimal "F"-type transcriptional activation domains from the herpes simplex virus VP16 protein. Tet-On 3G was derived from Tet-On Advanced (Zhou et al. 2006; Urlinger et al. 2000; Gossen and Bujard 1992; Gossen et al. 1995); as a result, it’s fully synthetic, lacks cryptic splice sites, and is codon-optimized for stable expression in mammalian cells. Compared to both of its predecessors, however, this 3rd generation Tet-On transactivator demonstrates increased sensitivity to Dox (Zhou et al. 2006). Constitutive expression of Tet-On 3G is driven by the human cytomegalovirus immediately early promoter (P CMV IE).Location of Features in pCMV-Tet3G•P CMV IE(human cytomegalovirus immediate early promoter): 2–688•Tet-On 3G (transactivator gene): 775–1521•SV40 polyA signal: 1536–1991•pUC origin of replication: 2342–2996•Amp r (ampicillin resistance gene; β-lactamase): 3144–4004 (complementary)•SV40 polyA signal: 4275–4809 (complementary)•Kan r/Neo r (kanamycin/neomycin resistance gene): 5417–6211 (complementary)•P SV40 e (SV40 early promoter): 6532–6891 (complementary)Additional InformationpCMV-Tet3G is used to develop stable Tet-On 3G cell lines, which are hosts for Tet-inducible gene expression systems. To create a Tet-inducible expression system, a vector containing a gene of interest under the control of the Tet-inducible TRE3G promoter(P TRE3G) is transfected into a Tet-On 3G cell line. The addition of Dox to the system causes Tet-On 3G to undergo a conformational change that allows it to bind to P TRE3G, activating transcription of the gene of interest in a highly dose-dependent manner. Additional information on TRE-containing vectors, and protocols describing the construction of Tet-On 3G cell lines can be found in the Tet-On 3G Expression Systems User Manual (PT5148-1).Propagation in E. coli•Suitable host strain: Stellar™ Competent Cells•Selectable marker: plasmid confers resistance to ampicillin (100 μg/ml) in E. coli hosts.• E. coli replication origin: pUCpTRE3G-ZsGreen1 Vector and pTRE3G-Luc Control Vector InformationFigure 2. pTRE3G-ZsGreen1 Vector and pTRE3G-Luc Control Vector Maps.Figure 3. pTRE3G-ZsGreen Vector Multiple Cloning Site. The internal start site (ATG) at the IRES2/MCS junction is indicated in bold.DescriptionpTRE3G-ZsGreen1is a Tet-inducible, mammalian expression vector designed to coexpress a gene of interest and the green fluorescent protein ZsGreen1 under the control of the Tet-responsive promoter P TRE3G. This promoter consists of a highly optimized Tet-responsive element (TRE) just upstream of a minimal CMV promoter. P TRE3G exhibits exceptionally low basal activity; it’s induced by the binding of Tet-On 3G but is virtually silent in its absence. The vector is designed to be used as part of our Tet-On 3G Inducible Expression System (Cat. No. 631164).ZsGreen1 is a human codon-optimized variant of the reef coral Zoanthus sp. green fluorescent protein (ZsGreen) that has been engineered for brighter fluorescence (excitation and emission maxima: 493 and 505 nm, respectively; Matz et al. 1999; Haas, Park, and Seed 1996). p TRE3G-ZsGreen allows Dox-inducible coexpression of ZsGreen1 and a gene of interest from a bicistronic mRNA transcript. An encephalomyocarditis virus (EMCV) internal ribosome entry site (IRES2), positioned between ZsGreen1 and the gene of interest, facilitates cap-independent translation of the gene of interest from an internal start site at the IRES2/MCS junction (Jang et al. 1988). This ensures that a high percentage of ZsGreen1-expressing clones also express the gene of interest, allowing ZsGreen1 to be used as an indicator of inducibility and transfection efficiency, as well as a marker for selection by flow cytometry. The vector also contains a pUC origin of replication and an ampicillin resistance gene (Amp r) to allow for propagation and selection in E. coli.The pTRE3G-Luc is a Tet-inducible control vector that expresses firefly luciferase under the control of P TRE3G. When used with standard luciferase detection reagents, this vector can be used as a reporter of induction efficiency (see User Manual for protocol). pTRE3G-Luc is not intended to be used as a cloning vector.Location of Features in pTRE3G-ZsGreen1•P TRE3G (3rd generation Tet-responsive promoter): 7–382•ZsGreen1: 389–1084•IRES2 (encephalomyocarditis virus internal ribosome entry site): 1091–1673•MCS (multiple cloning site): 1686–1721•SV40 polyA signal: 1776–2573•pUC origin of replication: 2838–3481•Amp r (ampicillin resistance gene; β-lactamase): 3629–4489 (complementary)Location of Features in pTRE3G-Luc•P TRE3G (3rd generation Tet-responsive promoter): 7–382•Luciferase: 432–2084•SV40 polyA signal: 2151–2948•pUC origin of replication: 3213–3856•Amp r (ampicillin resistance gene; β-lactamase): 4004–4864 (complementary)Additional InformationpTRE3G-ZsGreen1 is a mammalian expression vector that allows tightly regulated, doxycycline-controlled coexpression of a gene of interest and ZsGreen1. The gene of interest must have both a start and a stop codon. The gene of interest should be cloned in-frame with the start codon at the IRES2/MCS junction (this codon is shown in bold in the MCS sequence in Figure 3, page 3; see the User Manual for details on how to use In-Fusion® to simplify your cloning). Cotransfection of pTRE3G-ZsGreen1 constructs with Linear Hygromycin or Puromycin Markers allows antibiotic selection of stable transfectants. In order to function, the system requires the presence of the Tet-On 3G transactivator protein, supplied by a stable Tet-On 3G cell line created with our Tet-On 3G Inducible Expression System (Cat. No. 631164).Propagation in E. coli•Suitable host strain: Stellar™ Competent Cells•Selectable marker: plasmid confers resistance to ampicillin (100 μg/ml) in E. coli hosts.• E. coli replication origin: pUCExcitation and Emission of pTRE3G-ZsGreen1•Excitation: 493 nm•Emission: 505 nmReferences•Gossen, M. et al. Transcriptional activation by tetracyclines in mammalian cells. Science268, 1766–9 (1995).•Gossen, M. & Bujard, H. Tight control of gene expression in mammalian cells by tetracycline-responsive promoters. Proc. Natl. Acad. Sci. U. S. A.89, 5547–51 (1992).•Haas, J., Park, E. C. & Seed, B. Codon usage limitation in the expression of HIV-1 envelope glycoprotein. Curr.Biol.6, 315–24 (1996).•Jang, S. K. et al. A segment of the 5’ nontranslated region of encephalomyocarditis virus RNA directs internal entry of ribosomes during in vitro translation. J. Virol.62, 2636–43 (1988).•Matz, M. V et al. Fluorescent proteins from nonbioluminescent Anthozoa species. Nat. Biotechnol.17, 969–73 (1999).•Urlinger, S. et al. Exploring the sequence space for tetracycline-dependent transcriptional activators: novel mutations yield expanded range and sensitivity. Proc. Natl. Acad. Sci. U. S. A.97, 7963–8 (2000).•Zhou, X., Vink, M., Klaver, B., Berkhout, B. & Das, A. T. Optimization of the Tet-On system for regulated gene expression through viral evolution. Gene Ther.13, 1382–90 (2006).Quality Control DataPlasmid Identity & Purity•Digestion with the indicated restriction enzymes produced fragments of the indicated sizes on a 0.8% agarose/EtBr gel:Vector Enzyme(s) Fragment(s)pCMV-Tet3G EcoRI 7.1 kbEcoRI & HindIII 1.2 & 5.9 kbpTRE3G-ZsGreen1 XhoI 4.7 kbEcoRV 1.2 & 3.5 kbpTRE3G-Luc XhoI 5.1 kbEcoRI & BamHI 2.1 & 3.0 kbLinear Hygromycin Marker HindIII & XbaI0.5, 0.6 & 1.1 kbLinear Puromycin Marker HindIII & XbaI0.45, 0.6, & 0.75 kb•Vector identity was confirmed by sequencing.•A260/A280: 1.8–2.0Functional Testing of Linear Markers•HEK 293 cells were transfected with 200 ng of either the Linear Hygromycin Marker or the Linear Puromycin Marker. After 5 hr at 37°C, the transfection solution was removed, and the cells were given fresh medium. 48 hr later, the cells were plated in two 10 cm plates. 48 hr after plating, medium containing either hygromycin orpuromycin (depending on the linear marker used to transfect the cells) was added to the plates. After 2–3 weeks, >20 clones were identified.It is certified that this product meets the above specifications, as reviewed and approved by the Quality Department.CATALOG NO.631159NOTICE TO PURCHASER:Our products are to be used for research purposes only. They may not be used for any other purpose, including, but not limited to, use in drugs, in vitro diagnostic purposes, therapeutics, or in humans. Our products may not betransferred to third parties, resold, modified for resale, or used to manufacture commercial products or to provide a service to third parties without prior written approval of Takara Bio USA, Inc.Your use of this product is also subject to compliance with the licensing requirements listed below and described on the product´s web page at . It is your responsibility to review, understand and adhere to any restrictions imposed by these statements.STATEMENT 24The RCFPs (including DsRedExpress, DsRedExpress2, and E2-Crimson) are covered by one or more of thefollowing U.S. Patent Nos. 7,166,444; 7,157,565; 7,217,789; 7,338,784; 7,338,783; 7,537,915; 6,969,597; 7,150,979;7,442,522 and 8,012,682.STATEMENT 72Living Colors Fluorescent Protein Products: Not-For-Profit Entities: Orders may be placed in the normal manner by contacting your local representative or Takara Bio USA, Inc. Customer Service. Any and all uses of this product will be subject to the terms and conditions of the Non-Commercial Use License Agreement (the “Non-Commercial License”), a copy of which can be found below. As a condition of sale of this product to you, and prior to using this product, you must agree to the terms and conditions of the Non-Commercial License. Under the Non-Commercial License, Takara Bio USA, Inc. grants Not-For-Profit Entities a non-exclusive, non-transferable, non-sublicensable and limited license to use this product for internal, non-commercial scientific research use only. Such licensespecifically excludes the right to sell or otherwise transfer this product, its components or derivatives thereof to third parties. No modifications to the product may be made without express written permission from Takara Bio USA, Inc.Any other use of this product requires a different license from Takara Bio USA, Inc. 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