Reversed DNA strand cleavage specificity in initiation of Cre-LoxP recombination induced by the His289Ala active-site substitution

During the first steps of site-specific recombination, Cre protein cleaves and religates a specific homologous pair of LoxP strands to form a Holliday junction (HJ) intermediate. The HJ is resolved into recombination products through exchange of the second homologous strand pair. CreH289A, containing a His to Ala substitution in the conserved R-H-R catalytic motif, has a 150-fold reduced recombination rate and accumulates HJs. However, to produce these HJs, CreH289A exchanges the opposite set of strands compared to wild-type Cre (CreWT). To investigate how CreH289A and CreWT impose strand exchange order, we characterized their reactivities and strand cleavage preferences toward LoxP duplex and HJ substrates containing 8bp spacer substitutions. Remarkably, CreH289A had different and often opposite strand exchange preferences compared to CreWT with nearly all substrates. CreH289N was much less perturbed, implying that overall recombination rate and strand exchange depend more on His289 hydrogen bonding capability than on its acid/base properties. LoxP substitutions immediately 5' (S1 nucleotide) or 3' (S1' nucleotide) of the scissile phosphate had large effects on substrate utilization and strand exchange order. S1' substitutions, designed to alter base-unstacking events concomitant with Cre-induced LoxP bending, caused HJ accumulation and dramatically inverted the cleavage preferences. That pre-formed HJs were resolved via either strand in vitro suggests that inhibition of the "conformational switch" isomerization required to trigger the second strand exchange accounts for the observed HJ accumulation. Rather than reflecting CreWT behavior, CreH289A accumulates HJs of opposite polarity through a combination of its unique cleavage specificity and an HJ isomerization defect. The overall implication is that cleavage specificity is mediated by sequence-dependent DNA deformations that influence the scissile phosphate positioning and reactivity. A role of His289 may be to selectively stabilize the "activated" phosphate conformation in order to promote cleavage.     

基于Cre重组酶体系的鸡卵清蛋白基因打靶载体的构建

利用胚胎干细胞基因打靶技术制备转基因鸡是研制鸡输卵管反应器的最佳技术路线。为建立基于Cre/loxp系统的鸡卵清蛋白基因(Ovalbumingene,OV)位点的双交换打靶载体系统,本研究克隆了鸡的OV基因7.8kb片段,并与克隆的内部核糖体进入位点(IRES)、人工合成的含有Cre重组酶识别位点变异体交换盒m2/loxp71EGFPloxp66,一起构建了含有Hsvtk负筛选标记的针对鸡卵清蛋白基因位点的敲入型共表达基因打靶载体pSSCm2/71EGFP66IRESOV7.8;以猪β干扰素基因(βInterferon,IFNβ)为目的基因构建了穿梭载体pMDm2/66MCSIFNMCSLoxp71,经过限制酶酶切及部分测序鉴定,所构建载体结构正确。进一步将它们共转化组成性表达Cre的细菌BM25.8,验证了loxp突变位点对重组反应的有效性     

他莫昔芬诱导的Cre重组酶在hGfapCreERT2转基因鼠小脑中的表达研究

目的探讨他莫昔芬诱导的hGfapCreERT2转基因鼠小脑中表达Cre重组酶的细胞类型。方法 hGfapCre-ERT2/Rosa26R转基因小鼠在胚胎晚期和出生早期用他莫昔芬诱导Cre重组酶表达,对小脑组织切片行X-gal染色,然后用细胞种类特异性抗体进行免疫组织化学染色,并和X-gal染色双重标记。结果在出生后第7天(P7)、第14天(P14)和第60天(P60),X-gal阳性染色和胶质细胞抗体Blbp阳性染色共标记,和神经元抗体Neun、浦肯野细胞抗体Calbindin及少突胶质细胞前体细胞抗体NG2不共标。结论自胚胎晚期第17.5天(E17.5)后用他莫昔芬诱导hGfapCreERT2转基因鼠,发现Cre重组酶特异性在小脑星形胶质细胞中表达,不在神经元、浦肯野细胞、少突胶质细胞前体细胞中表达。     

L7/Pcp-2-specific expression of Cre recombinase using knock-in approach

We report a knock-in mouse expressing Cre recombinase from the translational initiation site (ATG) of the endogenous L7/Pcp-2 gene. The resulting Cre expression matches the pattern of L7/Pcp-2 expression that is restricted to cerebellar Purkinje cells and retinal cells. Moreover, the Cre mouse showed no significant behavioral abnormality. Thus, our novel Cre mouse can be used for generation of Purkinje cells and retinal cell-specific gene expression and/or knockout in mouse using the Cre/loxP system.     

Mechanism of inhibition of site-specific recombination by the Holliday junction-trapping peptide WKHYNY: insights into phage lambda integrase-mediated strand exchange

Holliday junctions are central intermediates in site-specific recombination reactions mediated by tyrosine recombinases. Because these intermediates are extremely transient, only artificially assembled Holliday junctions have been available for study. We have recently identified hexapeptides that cause the accumulation of natural Holliday junctions of bacteriophage lambda Integrase (Int)-mediated reactions. We now show that one of these peptides acts after the first DNA cleavage event to stabilize protein-bound junctions and to prevent their resolution. The peptide acts before the step affected by site affinity (saf) mutations in the core region, in agreement with a model that the peptide stabilizes the products of strand exchange (i.e. Holliday junctions) while saf mutations reduce ligation of exchanged strands.Strand exchange events leading to Holliday junctions in phage lambda integration and excision are asymmetric, presumably because interactions between Int and some of its core-binding sites determine the order of strand cleavage. We have compared the structure of Holliday junctions in one unidirectional and in two bidirectional Int-mediated pathways and show that the strand cleavage steps are much more symmetric in the bidirectional pathways. Thus Int-DNA interactions which determine the order of top and bottom strand cleavage and exchange are unique in each recombination pathway.     

Functional expression of the Cre recombinase in actinomycetes

Site-specific recombinases revolutionized “in vivo” genetic engineering because they can catalyze precise excisions, integrations, inversions, or translocations of DNA between their distinct recognition target sites. We have constructed a synthetic gene encoding Cre recombinase with the GC content 67.7% optimized for expression in high-GC bacteria and demonstrated this gene to be functional in Streptomyces lividans. Using the synthetic cre(a) gene, we have removed an apramycin resistance gene flanked by loxP sites from the chromosome of S. lividans with 100% efficiency. Sequencing of the chromosomal DNA part showed that excision of the apramycin cassette by Cre recombinase was specific.     

Preparation of cell-permeable Cre recombinase by expressed protein ligation

Background

Protein transduction is safer than viral vector-mediated transduction for the delivery of a therapeutic protein into a cell. Fusion proteins with an arginine-rich cell-penetrating peptide have been produced in E. coli, but the low solubility of the fusion protein expressed in E. coli impedes the large-scale production of fusion proteins from E. coli.

Results

Expressed protein ligation is a semisynthetic method to ligate a bacterially expressed protein with a chemically synthesized peptide. In this study, we developed expressed protein ligation-based techniques to conjugate synthetic polyarginine peptides to Cre recombinase. The conjugation efficiency of this technique was higher than 80%. Using this method, we prepared semisynthetic Cre with poly-L-arginine (ssCre-R9), poly-D-arginine (ssCre-dR9) and biotin (ssCre-dR9-biotin). We found that ssCre-R9 was delivered to the cell to a comparable level or more efficiently compared with Cre-R11 and TAT-Cre expressed as recombinant fusion proteins in E. coli. We also found that the poly-D-arginine cell-penetrating peptide was more effective than the poly-L-arginine cell-penetrating peptide for the delivery of Cre into cell. We visualized the cell transduced with ssCre-dR9-biotin using avidin-FITC.

Conclusions

Collectively, the results demonstrate that expressed protein ligation is an excellent technique for the production of cell-permeable Cre recombinase with polyarginine cell-penetrating peptides. In addition, this approach will extend the use of cell-permeable proteins to more sophisticated applications, such as cell imaging.

Electronic supplementary material

The online version of this article (doi:10.1186/s12896-015-0126-z) contains supplementary material, which is available to authorized users.     

Gene deletion from Plasmodium falciparum using FLP and Cre recombinases: Implications for applied site-specific recombination

The ability to manipulate the genome and induce site-specific recombination using either Flippase (FLP) or Cre recombinase has been useful in many systems including Plasmodium berghei for specific deletion events or to obtain conditional gene expression. To test whether these recombinases are active in Plasmodium falciparum we constructed gene knockouts that contain sequences recognised as templates for site-specific recombination. We tested the ability of FLP and Cre recombinases, expressed conditionally in P. falciparum, to mediate deletion of the human dihydrofolate reductase (hdhfr) drug resistance gene. We show that Cre recombinase is capable of efficient removal of hdhfr by site-specific recombination. In contrast, FLP recombinase is very inefficient, even at the optimum temperature of 30 °C for this enzyme. These results demonstrate that Cre recombinase can be utilised in P. falciparum for deletion of specific sequences such as drug resistance genes. This can be exploited for recycling of drug resistance cassettes and for the design of specific recombination events in P. falciparum.     

Cre重组酶表达载体的构建及其在转基因小鼠胰腺中的表达

组织特异性表达Cre重组酶的转基因小鼠是进行组织特异性条件敲除研究的关键。采用PCR扩增大鼠胰岛素基因705bp启动子指导发胰岛细胞中特异表达;同时采用改构的Cre重组酶基因,在其5'端添加有真核核糖体结合序列和核定位序列使Cre重组酶能穿越核膜在细胞核能发挥功能;同时,为了保证原核基因Cre能在真核系统顺利表达,在其3'端添加含内含子的人生长激素基因。构建的表达载体在去除原核序列后用显微注射方法转基因小鼠,在出生的27只仔鼠中,PCR检测共获得7只Cre整合阳性的转基因小鼠,整合率26％。这种Cre转基因小鼠与基因组小携带LoxP位点的条件基因打靶小鼠交配,在胰腺组织中可以检测到Cre介导的重组,表明Cre在转基因小鼠胰腺中有表达。     

Cre recombinase expression can result in phenotypic aberrations in plants

The cre recombinase gene was stably introduced and expressed in tomato, petunia and Nicotiana tabacum. Some plants expressing the cre gene driven by a CaMV 35S promoter displayed growth retardation and a distinct pattern of chlorosis in their leaves. Although no direct relation can be proven between the phenotype and cre expression, aberrant phenotypes always co-segregate with the transgene, which strongly suggests a correlation. The severity of the phenotype does not correlate with the level of steady-state mRNA in mature leaves, but with the timing of cre expression during organogenesis. The early onset of cre expression in tomato is correlated with a more severe phenotype and with higher germinal transmission frequencies of site-specific deletions. No aberrant phenotype was observed when a tissue-specific phaseolin promoter was used to drive the cre gene. The data suggest that for the application of recombinases in plants, expression is best limited to specific tissues and a short time frame.[12pt] Abbreviations: bar, the phosphinotricin acetyltransferase gene; CAM, chloramphenicol resistance gene; Ds 5 & Ds 3, borders of the Ds transposable element from maize forming a functional transposable element that embodies the interjacent DNA; gus, the -glucoronidase gene; gus-int, the gus gene interrupted by a plant intron; hpt, the hygromycin phosphotransferase gene; nptII, the neomycin phosphotransferase gene; ORI, bacterial origin for plasmid replication in Escherichia coli of plasmid p15A     

Removal of selectable marker gene from fibroblast cells in transgenic cloned cattle by transient expression of Cre recombinase and subsequent effects on recloned embryo development

Introduction of selectable marker genes to transgenic animals could create an inconvenience to further research and may exaggerate public concerns regarding biological safety. The objective of the current study was to excise loxP flanked neo^R in transgenic cloned cattle by transient expression of Cre recombinase. Green fluorescent protein gene (GFP) was incorporated to monitor Cre expression; therefore, Cre-expressed cells could be selected indirectly by fluorescence-activated cell sorting (FACS). The neo^R was removed and Cre expressed transiently in GFP-positive colonies; excision of neo^R was confirmed by single-blastocyst PCR in recloned blastocysts, with neo^R-free fibroblast cells as donors. There was no difference (P > 0.05) in rates of cleavage (76.0% vs. 68.8%) or blastocyst formation (56.6% vs. 52.9%) between recloned embryos with neo^R-free or neo^R-included donors. The differential staining of recloned blastocysts were similar (P >0.05) in terms of total cell number (124 vs. 122) and the ratio of ICM (Inner Cell Mass) to the total cell number (38.1% vs. 38.2%). Furthermore, pregnancy and calving rates were not different (P > 0.05) from those of the control. In conclusion, we successfully excised neo^R from transgenic cloned cattle; the manipulation did not affect the developmental competence of recloned preimplantation embryos. This approach should benefit bioreactor and transgenic research in livestock.     

Maternally expressed PGK-Cre transgene as a tool for early and uniform activation of the Cre site-specific recombinase

A transgenic mouse strain with early and uniform expres sion of the Cre site-specific recombinase is described. In this strain, PGK-Crem, Cre is driven by the early acting PGK-1 promoter, but, probably due to cis effects at the integration site, the recombinase is under dominant maternal control. When Cre is transmitted by PGK-Crem females mated to males that carry a reporter transgene flanked by loxP sites, even offspring that do not inherit PGK-Cre delete the target gene. It follows that in the PGK-Crem female Cre activity commences in the diploid phase of oogenesis. In PGK-Crem crosses complete recombination was observed in all organs, including testis and ovary. We prepared a mouse stock that is homozygous for PGK-Crem and at the albino (c) locus. This strain will be useful for the early and uniform induction of ectopic and dominant negative mutations, for the in vivo removal of selective elements from targeted mutations and in connection with the manipulation of targeted loci in 'knock in' and related technologies     

肾上腺皮质束状带特异性表达Cre重组酶转基因小鼠的构建

肾上腺是人体重要的内分泌器官。由于缺乏肾上腺皮质束状带特异性表达Cre酶的工具鼠,目前对肾上腺皮质束状带细胞中特异表达基因的功能缺乏深入的解析。CYP11B1基因编码类固醇11β-羟化酶,该酶是糖皮质激素合成的关键酶,在肾上腺皮质束状带中特异性表达。本研究旨在利用CYP11B1基因在束状带特异性表达的特点,构建在肾上腺皮质束状带中特异性表达Cre重组酶的转基因动物。采用CRISPR/Cas9技术在CYP11B1基因终止密码子位点定点敲入2A-GfpCre表达框,获得CYP11B1-2A-GfpCre同源重组载体,进而构建CYP11B1Cre小鼠,并通过mTmG和LacZ染色确定Cre酶主要表达在小鼠肾上腺皮质束状带。在此基础上,本研究还用该工具鼠与胱硫醚-γ-裂解酶(cystathionineγ-lyase, CTH)条件性敲除鼠交配,获得了肾上腺皮质束状带CTH特异性敲除的小鼠,并证实了该动物肾上腺皮质束状带中CTH表达缺失。以上结果充分说明肾上腺皮质束状带特异性表达Cre重组酶小鼠构建成功。该工具鼠的成功构建,为深入研究肾上腺皮质束状带相关功能提供了有力工具。     

Neuron-specific recombination by Cre recombinase inserted into the murine tau locus

To determine the neuronal function of genes in vivo, the neuron-specific deletion of a target gene in animals is required. Tau, a microtubule-associated protein, is expressed abundantly in neurons but scarcely in glias and other tissues. Therefore, to generate mice that express Cre recombinase in neurons, we inserted Cre recombinase into the tau locus. By crossing these tau-Cre mice with ROSA26 lacZ reporter mice, we observed Cre recombinase activity in the neurons from most of the central nervous system, but not in glias nor in non-neuronal tissues. This neuronal-specific activity appeared during embryogenesis. We further crossed tau-Cre mice with rab8 ‘floxed’ mice, and showed that the recombination was nearly complete in the brain, but incomplete or non-detectable in other tissues. Thus, tau-Cre knockin mouse is a useful tool for studying the neuronal function of a gene in vivo.     

Oligodendroglial and pan‐neural crest expression of Cre recombinase directed by Sox10 enhancer

Utilizing a recently identified Sox10 distal enhancer directing Cre expression, we report S4F:Cre, a transgenic mouse line capable of inducing recombination in oligodendroglia and all examined neural crest derived tissues. Assayed using R26R:LacZ reporter mice expression was detected in neural crest derived tissues including the forming facial skeleton, dorsal root ganglia, sympathetic ganglia, enteric nervous system, aortae, and melanoblasts, consistent with Sox10 expression. LacZ reporter expression was also detected in non‐neural crest derived tissues including the oligodendrocytes and the ventral neural tube. This line provides appreciable differences in Cre expression pattern from other transgenic mouse lines that mark neural crest populations, including additional populations defined by the expression of other SoxE proteins. The S4F:Cre transgenic line will thus serve as a powerful tool for lineage tracing, gene function characterization, and genome manipulation in these populations. genesis 47:765–770, 2009. © 2009 Wiley‐Liss, Inc.     

The Cre/loxP system in Giardia lamblia: genetic manipulations in a binucleate tetraploid protozoan

The bacteriophage-derived Cre/loxP system is a valuable tool that has revolutionised genetic and cell biological research in many organisms. We implemented this system in the intestinal parasite Giardia lamblia, an evolutionarily diverged protozoan whose binucleate and tetraploid genome organisation severely limits the application of reverse genetic approaches. We show that Cre-recombinase is functionally expressed in G. lamblia and demonstrate “recycling” of selectable markers. Providing the means for more complex and versatile genetic modifications, this technique massively increases the scope of functional investigations in G. lamblia and other protozoa with similar limitations with respect to genetic manipulation.     

Generation of transgenic mice expressing Cre recombinase under the control of the Dll1 mesoderm enhancer element

To study paraxial mesoderm formation in the mouse, transgenic lines that can be used to either selectively delete or express genes of interest in the paraxial mesoderm are required. We have generated a transgenic mouse line that expresses Cre recombinase in the paraxial mesoderm (PAM) beginning at e7.5. A lacZ Cre recombinase reporter line showed that in addition to PAM and its derivatives, lateral plate and intermediate mesoderm derivatives were also exposed to Cre activity, while the node, notochord, and cardiac mesoderm were not. We further demonstrate that 70–75% of the fibroblasts generated from Dll1‐msd Cre, ROSA26‐rtTA embryos possess Cre recombinase activity. These mice can therefore be used in combination with tet‐responsive transgenic lines to generate mesoderm‐derived embryonic fibroblasts that inducibly express a gene of interest. genesis 47:309–313, 2009. © 2009 Wiley‐Liss, Inc.     

Distance from the chromosome end determines the efficiency of double strand break repair in subtelomeres of haploid yeast

Double strand break (DSB) repair plays an important role in chromosome evolution. We have investigated the fate of DSBs as a function of their location along the yeast chromosome XI, in a system where no conventional homologous recombination can occur. We report that the relative frequency of non-homologous endjoining (NHEJ), which is the exclusive mode of DSB repair in the internal chromosomal portion, decreases gradually towards the telomere, keeping the absolute frequency nearly constant, and that other repair mechanisms, which generally involve the loss of the distal chromosomal fragment, appear in subtelomeric regions. Distance of the DSB from chromosome ends plays a critical role in the global frequency of these repair mechanisms. Direct telomere additions are rare, and other events such as break-induced replication, plasmid incorporation, and gene conversion, involve acquisition of heterologous sequences. Therefore, in subtelomeric regions, cell survival to DSBs is higher and alternative modes of repair allow new genomic combinations to be generated. Furthermore, subtelomeric rearrangements depend on the recombination process, which, unexpectedly, also promotes the joining of heterologous sequences. Finally, we report that the Rad52 protein increases the efficiency of NHEJ.     

Atp4b promoter directs the expression of Cre recombinase in gastric parietal cells of transgenic mice

Parietal cells are one of the largest epithelium cells of the mucous membrane of the stomach that secrete hydrochloric acid.To study the function of gastric parietal cells during gastric epithelium homeostasis,we generated a transgenie mouse line,namely,Atp4b-Cre,in which the expression of Cre recombinase was controlled by a 1.0 kb promoter of mouse β-subunit of H+-,K+-ATPase gene(Atp4b).In order to test the tissue distribution and excision activity of Cre recombinase in vivo,the Atp4b-Cre transgenic mice were bred with the reporter strain ROSA26 and a mouse strain that carries Smad4 conditional alleles(Smad4Co/Co).Multiple-tissue PCR of Atp4b-Cre;Smad4Co/+mice revealed that the recombination only happened in the stomach.As indicated by LacZ staining,ROSA26;Atp4b-Cre double transgenic mice showed efficient expression of Cre recombinase within the gastric parietal cells.These results showed that this Atp4b-Cre mouse line could be used as a powerful tool to achieve conditional gene knockout in gastric parietal cells.