SV40PolyA顺式活化基因元件中不完整茎环结构的发现和序列研究

研究室的前期工作发现,Alu串连序列插入pEGFP-C1质粒的GFP基因下游,瞬时转染HeLa细胞抑制GFP基因表达,2F2R(来自SV40PolyA反序5′端的第2个60 bp)插入GFP和Alu串连序列之间可以解除Alu序列对GFP基因的抑制作用。文章通过删减2F2R发现,45R(2F2R 5′端的45 bp)、30R和22R可以活化基因,且二串连体活化基因作用高于单体。Secloop(2F2R近中部的22 bp)和Poly4(2F2R 3′端的30 bp)不能活化基因。30R与Poly4用9碱基连接形成30R-Poly4,其活化基因作用低于2F2R,两个22R之间连接碱基数对活化GFP基因作用没有明显的影响。22R(5′-GTGAAAAAAATGCTTTATTTGT-3′)含有不完整的回文序列,可以形成不完整的茎环结构,包括一个3碱基loop、3 bp第一茎、2碱基泡和3 bp第二茎。改变22R茎环结构的碱基突变明显影响其活化GFP基因的作用,过多互补和过少互补的茎环结构均不利于活化基因,提示适当的不完整茎环结构与活化基因有关。     

Identification and characterization of two critical sequences in SV40PolyA that activate the green fluorescent protein reporter gene

Alu repeats or Line-1-ORF2 (ORF2) inhibit expression of the green fluorescent protein (GFP) gene when inserted downstream of this gene in the vector pEGFP-C1. In this work, we studied cis-acting elements that eliminated the repression of GFP gene expression induced by Alu and ORF2 and sequence characteristics of these elements. We found that sense and antisense PolyA of simian virus 40 (SV40PolyA, 240 bp) eliminated the repression of GFP gene expression when inserted between the GFP gene and the Alu (283 bp) repeats or ORF2 (3825 bp) in pAlu14 (14 tandem Alu repeats were inserted downstream of the GFP gene in the vector pEGFP-C1) or pORF2. Antisense SV40PolyA (PolyAas) induced stronger gene expression than its sense orientation (PolyA). Of four 60-bp segments of PolyAas (1F1R, 2F2R, 3F3R and 4F4R) inserted independently into pAlu14, only two (2F2R and 3F3R) eliminated the inhibition of GFP gene expression induced by Alu repeats. Deletion analysis revealed that a 17 nucleotide AT repeat (17ntAT; 5'-AAAAAAATGCTTTATTT-3') in 2F2R and the fragment 3F38d9 (5'-ATAAACAAGTTAACAACA ACAATTGCATT-3') in 3F3R were critical sequences for activating the GFP gene. Sequence and structural analyses showed that 17ntAT and 3F38d9 included imperfect palindromes and may form a variety of unstable stem-loops. We suggest that the presence of imperfect palindromes and unstable stem-loops in DNA enhancer elements plays an important role in GFP gene activation.     

Impact of copy number of distinct SV40PolyA segments on expression of a GFP reporter gene

The presence of Alu repeats downregulates the expression of the green fluorescent protein(GFP) gene.We found that SV40PolyA(PolyA,240 bp),in either orientation,eliminated the inhibition of GFP gene expression induced by Alu repeats when it was placed between the GFP gene and the Alu repeats.In this study,4 different segments(each 60 bp) were amplified from antisense PolyA(PolyAas) by PCR,and inserted upstream of Alu14 in pAlu14 plasmid(14 Alu repeats inserted downstream of the GFP gene in vector pEGFP-C1 in...     

SV40 PolyA序列及其AATAAA信号对上游GFP基因表达及转录终止的影响

SV40 PolyA(猴空泡病毒PolyA,简称PolyA)序列是有转录终止作用和使转录的mRNA添加PolyA尾的DNA序列(240 bp),含有AATAAA六核苷酸多腺苷化信号(Polyadenylation signal)。在pEGFP-C1质粒的GFP基因下游插入14个同向串联的Alu序列(Alu14),构建pAlu14质粒,瞬时转染HeLa细胞,用Northern blot检测和荧光显微镜观察GFP RNA和GFP蛋白表达,发现Alu串联序列强烈抑制GFP基因表达,该序列没有转录终止作用产生高分子量GFP融合RNA。又在pAlu14质粒GFP基因和Alu串联序列之间按正、反方向插入PolyA序列及去除AATAAA信号的PolyA序列,插入的这些PolyA序列均能部分解除Alu14对GFP基因的抑制作用;去除AATAAA信号的PolyA正、反序列仍然引起转录终止。将PolyA反序(PolyAas)分为4段每段60 bp,中间的2段分别称为2F2R和3F3R,将2F2R或3F3R插在pAlu14质粒的Alu串联序列的上游,随着插入2F2R片段拷贝数的增加转录的GFP融合RNA的分子量增加;2F2R的下游如果依然是2F2R那么2F2R可以支持转录延伸,如果2F2R下游是Alu串联序列则2F2R导致转录终止。无论插入一个3F3R或插入64个3F3R,均产生低分子量GFP RNA。     

Stability of single-nucleotide bulge loops embedded in a GAAA RNA hairpin stem

Forty-six RNA hairpins containing combinations of 3' or 5' bulge loops and a 3' or 5' fluorescein label were optically melted in 1 M NaCl, and the thermodynamic parameters ΔH°, ΔS°, ΔG°(37), and T(M) for each hairpin were determined. The bulge loops were of the group I variety, in which the identity of the bulge is known, and the group II variety, in which the bulged nucleotide is identical to one of its nearest neighbors, leading to ambiguity as to the exact position of the bulge. The fluorescein label at either the 3' end or 5' end of the hairpin did not significantly influence the stability of the hairpin. As observed with bulge loops inserted into a duplex motif, the insertion of a bulge loop into the stem of a hairpin loop was destabilizing. The model developed to predict the influence of bulge loops on the stability of duplex formation was extended to predict the influence of bulge loops on hairpin stability. Specifically, the influence of the bulge is related to the stability of the hairpin stem distal from the hairpin loop.     

Three domains in the simian virus 40 core origin orchestrate the binding, melting, and DNA helicase activities of T antigen.

The simian virus 40 (SV40) core origin of replication consists of three functional domains. The sequence 5'-CACTACTTCTGGAATAG-3' with an imperfect inverted repeat (underlined), a palindrome with four 5'-GAGGC-3' pentanucleotide repeats, and a 17-base-pair A + T-rich segment. We have been able to assign primary functions to each domain. Remarkably, SV40 large T antigen melted the inverted repeat domain in the complete absence of other origin sequences. Presumably, this protein-DNA interaction initiates a replication bubble that leads to daughter strand DNA synthesis. The pentanucleotide domain alone docked and arranged T antigen at the origin. The A + T-rich domain had no independent function, but, in the presence of the other two domains, allowed bound T antigen to extend the replication bubble. Thus, three domains of the origin coordinate the binding, melting, and DNA helicase activities of T antigen in an ordered sequence of events to initiate DNA replication.     

Unusual class of Alu sequences containing a potential Z-DNA segment.

A potential Z-DNA sequence, (dA-dC)9, has been found to replace the customary A-rich region in the middle of an Alu family member in the African green monkey genome. This Alu, bounded by imperfect direct repeats, also contains an unusual 3' end and may be a member of a large subfamily of such sequences.     

Nucleotide and deduced amino acid sequence of the Rhodobacter sphaeroides gene encoding form II ribulose-1,5-bisphosphate carboxylase/oxygenase and comparison with other deduced form I and II sequences

The nucleotide sequence for the Rhodobacter sphaeroides form II ribulose 1,5-bisphosphate carboxylase/oxygenase was determined. The deduced product is highly homologous with the form II-like enzyme of Rhodospirillum rubrum , but appears to be more distantly related to the large subunit of the L₈S₈ enzyme found in autotrophic bacteria, cyanobacteria and higher plants. Several regions highly conserved among L₈S₈ and L_X enzymes correspond with regions previously implicated in catalytic activity and subunit interactions. An imperfect palindrome and a stem loop structure were identified in the 5' and 3' flanking sequences, respectively, of R. sphaeroides rbpL .     

L1-ORF2不同片段对报告基因表达产生不同影响

长散布重复序列-1(Line-1, L1)是重要的人类基因组成分, 完整的L1有6 kb, 在基因组中存在的L1多数是不完整序列, 有必要研究L1片段对基因表达的调控作用。PCR扩增L1第二读码框(L1-ORF2)不同位置的 280 bp片段, 共7段, 同向8串联按正、反方向分别插入pEGFP质粒GFP基因下游, 观察插入序列对GFP报告基因表达的影响。构建的质粒瞬时转染HeLa细胞, 经荧光显微镜和Northern检测, 不同片段对转录量和终止影响不同。7个片段正序对GFP报告基因的抑制均高于其反序, 在正序串联表达载体p280-1*8和p280-9*8的GFP基因转录量超过其他280正序插入片段, 在反序串联表达载体p280-1*8as和p280-9*8as的GFP基因转录量超过其他280反序片段。280-1*8、280-9*8、280-1*8as和280-9*8as属于转录终止性序列。Alu在基因组的多数区段与L1分布呈反比, Alu正、反序均对GFP表达有抑制作用, 但反序抑制作用高于正序, Alu正序属于转录延伸性序列。280 bp片段反序插入的所有质粒荧光阳性细胞均高于正序插入质粒。经碱基分析, L1-ORF2各段均存在A碱基含量多, T碱基含量少的现象, 这可能是其正、反序对基因表达影响不同的原因。     

Human 7SL RNA consists of a 140 nucleotide middle-repetitive sequence inserted in an alu sequence

We have cloned and sequenced a cDNA copy of in vitro-polyadenylated 7SL RNA of HeLa cells. The cloned fragment is 303 bp long and has a composite structure. A central block of 140 bp is homologous to a new set of human middle-repetitive sequences. This block appears to be inserted in an Alu consensus sequence, 100 bp from the 5' end and 40 bp from the 3' end of the Alu monomer. Two 6 bp direct repeats are found at the junction between the Alu flanking sequences and the central element. The analysis of several clones shows the existence of sequence microheterogeneity in the 5' portion of the molecule. The 7L DNA probably represents a subset of the Alu family of DNA, highly conserved in evolution.     

The beta globin gene cluster of the prosimian primate Galago crassicaudatus: nucleotide sequence determination of the 41-kb cluster and comparative sequence analyses.

The nucleotide sequence of the beta globin gene cluster of the prosimian Galago crassicaudatus has been determined. A total sequence spanning 41,101 bp contains and links together previously published sequences of the five galago beta-like globin genes (5'-epsilon-gamma-psi eta-delta-beta-3'). A computer-aided search for middle interspersed repetitive sequences identified 10 LINE (L1) elements, including a 5' truncated repeat that is orthologous to the full-length L1 element found in the human epsilon-gamma intergenic region. SINE elements that were identified included one Alu type I repeat, four Alu type II repeats, and two methionine tRNA-derived Monomer (type III) elements. Alu type II and Monomer sequences are unique to the galago genome. Structural analyses of the cluster sequence reveals that it is relatively A+T rich (about 62%) and regions with high G+C content are associated primarily with globin coding regions. Comparative analyses with the beta globin cluster sequences of human, rabbit, and mouse reveal extensive sequence homologies in their genic regions, but only human, galago, and rabbit sequences share extensive intergenic sequence homologies. Divergence analyses of aligned intergenic and flanking sequences from orthologous human, galago, and rabbit sequences show a gradation in the rate of nucleotide sequence evolution along the cluster where sequences 5' of the epsilon globin gene region show the least sequence divergence and sequences just 5' of the beta globin gene region show the greatest sequence divergence.     

Requirements for kissing-loop-mediated dimerization of human immunodeficiency virus RNA.

Sequences from the 5' end of type 1 human immunodeficiency virus RNA dimerize spontaneously in vitro in a reaction thought to mimic the initial step of genomic dimerization in vivo. Dimer initiation has been proposed to occur through a "kissing-loop" interaction involving a specific RNA stem-loop element designated SL1: the RNA strands first interact by base pairing through a six-base GC-rich palindrome in the loop of SL1, whose stems then isomerize to form a longer interstrand duplex. We now report a mutational analysis aimed at defining the features of SL1 RNA sequence and secondary structure required for in vitro dimer formation. Our results confirm that mutations which destroy complementarity in the SL1 loop abolish homodimer formation, but that certain complementary loop mutants can heterodimerize. However, complementarity was not sufficient to ensure dimerization, even between GC-rich loops, implying that specific loop sequences may be needed to maintain a conformation that is competent for initial dimer contact; the central GC pair of the loop palindrome appeared critical in this regard, as did two or three A residues which normally flank the palindrome. Neither the four-base bulge normally found in the SL1 stem nor the specific sequence of the stem itself was essential for the interaction; however, the stem structure was required, because interstrand complementarity alone did not support dimer formation. Electron microscopic analysis indicated that the RNA dimers formed in vitro morphologically resembled those isolated previously from retroviral particles. These results fully support the kissing-loop model and may provide a framework for systematically manipulating genomic dimerization in type 1 human immunodeficiency virus virions.     

Three transposed elements in the intron of a human VK immunoglobulin gene.

Two gene segments coding for the variable region of human immunoglobulin light chains of the kappa type (VK genes, ref. 2) were found to have unusual structures. The two genes which are called A6 and A22 are located in duplicated gene clusters. Their restriction maps are very similar. About 4 kb of the A22 gene region were sequenced. It turned out that the intron contains an insert with the characteristics of a transposed element. The inserted DNA of 1.2 kb length contains imperfect direct and inverted repeats at its ends; at the insertion site a duplication of five nucleotides was found. Within the inserted DNA one copy each of an Alu element and of the simple sequence motif (T-G)17 were identified. Also these two repetitive sequences are themselves flanked by short direct repeats. The major inserted DNA has no significant homology to published human nucleic acid sequences. The whole structure is interpreted best by assuming a sequential insertion of the three elements. The coding region of the VK gene itself has several mutations which by themselves would render it a pseudogene; we assume that the insertion event(s) occurred prior to the mutations. According to mapping and hybridization data A6 is very similar to A22.     

Nucleotide sequence of the rat gamma-crystallin gene region and comparison with an orthologous human region

The sequences of a 51-kb region containing the cluster of five rat gamma-crystallin-coding genes (CRYG) and of a 7-kb region surrounding the sixth rat CRYG gene were determined. Approximately 78% of the total sequence represents intergenic DNA. We also sequenced 22 kb of DNA from the human CRYG gene cluster. All CRYG genes are associated with CpG-rich regions. The sequence similarity between the human and rat gene regions drops sharply (to 65%) in intronic and 3'-flanking regions but decreases only gradually in the 5'-flanking region. Highly conserved regions (greater than 80%) are found as far upstream as 1.5 kb. Overall intergenic distances are conserved. The human region contains much more repetitive DNA (24% vs. 10%) but less simple-sequence (sps) DNA (0.7% vs. 4%) than the rat region. Almost all repeats and spsDNA elements are located in the intergenic region. The location of repetitive and spsDNA differs between the orthologous regions and these elements were probably inserted after the evolutionary separation of rat and man. The Alu repeats in man and the B3 repeats in the rat are close copies of their respective consensus sequences and bordered by virtually perfect repeats. In contrast, the B1 and B2 repeats in the rat have diverged considerably from the consensus sequence and the surrounding direct repeats are usually imperfect. Thus the dispersion of the B1 and B2 repeats in the rat probably preceded that of the B3 repeats. Within the rat genomic region the spacing of Z-DNA elements is surprisingly regular, they are located about 12 kb apart. A search for putative matrix-associated regions suggests that the rat CRYG gene cluster is organized into two chromosomal domains.