Multiple Tandem Copies Research Articles

Gibberella pulicaris transformants: state of transforming DNA during asexual and sexual growth.

A genetically fertile, trichothecene-producing plant pathogen, Gibberella pulicaris (Fusarium sambucinum), was transformed with three different vectors: cosHyg1, pUCH1, and pDH25. All three vectors carry hph (encoding hygromycin B phosphotransferase) as the selectable marker. Transformation frequency was 0.03 transformants per mumg of DNA for pDH25 and 0.5 for pUCH1 or cosHyg1. The vector DNA sequences integrated at different sites into the fungal genome. Transformants were classified into three types based upon distinctive integration patterns: type A contained a single, intact copy of the vector at one site per genome; type B contained multiple tandem copies or a combination of single and multiple tandem copies at one or more sites per genome; type C contained a partial vector copy at one site per genome. While the transformants with cosHyg1 and pUCH1 were type A or B, type C was unique to pDH25 transformants. Type A and C transformants were both meiotically and mitotically stable. However, type B multiple inserts were unstable in mitosis and meiosis since: (1) multiple tandem copies were deleted; (2) rearrangements occurred during premeiosis; and (3) inserts in one of the type B transformants became methylated during premeiosis. Differential expression of transforming sequences between spore germination and mycelial growth was also observed among type B transformants. The ability to transform G. pulicaris with the resulting varied features of integration patterns and the behavior of transforming DNA during mitosis and meiosis provides a means to isolate, manipulate, and study cloned genes in this mycotoxin-producing plant pathogen.

Isolation of anAspergillus terreusmutant impaired in arginine biosynthesis and its complementation with theargBgene fromAspergillus nidulans

Using filtration enrichment techniques, an Aspergillus terreus arginine auxotrophic strain which contains a mutation that abolishes ornithine transcarbamylase (OTCase) activity has been isolated. This mutant has been genetically transformed with the cloned Aspergillus nidulans OTCase gene. Prototrophic transformants arose at a frequency of about 50 transformants per microgram of plasmid DNA. Southern blot analysis of DNA from the transformants showed that the transforming DNA was ectopically integrated at different locations in the A. terreus genome, often in multiple tandem copies. The transformants were phenotypically stable for several mitotic divisions and retained their capacity to produce extracellular enzymes.

Isolation of an Aspergillus terreus mutant impaired in arginine biosynthesis and its complementation with the argB gene from Aspergillus nidulans.

Using filtration enrichment techniques, an Aspergillus terreus arginine auxotrophic strain which contains a mutation that abolishes ornithine transcarbamylase (OTCase) activity has been isolated. This mutant has been genetically transformed with the cloned Aspergillus nidulans OTCase gene. Prototrophic transformants arose at a frequency of about 50 transformants per microgram of plasmid DNA. Southern blot analysis of DNA from the transformants showed that the transforming DNA was ectopically integrated at different locations in the A. terreus genome, often in multiple tandem copies. The transformants were phenotypically stable for several mitotic divisions and retained their capacity to produce extracellular enzymes.

Identification of the 12-O-tetradecanoylphorbol-13-acetate-responsive enhancer of the MS gene of the Epstein-Barr virus.

We previously located two 12-O-tetradecanoylphorbol-13-acetate (TPA)-responsive enhancers, MSTRE-I and MSTRE-II, in the upstream sequence of the MS gene of Epstein-Barr virus (Liu, Q., and Summers, W.C. (1989) J. Virol. 63, 5062-5068). The core sequence of the MSTRE-I enhancer is now determined to be between -718 and -708 of the upstream sequence of the MS gene. The activity of the enhancer is also sensitive to its immediate surrounding sequence on either side. A single copy of a 30-base pair (bp) fragment containing the MSTRE-I sequence was able to confer TPA responsiveness upon the MS promoter even in the absence of an AP-1 binding site. Multiple tandem copies of this 30-bp fragment, regardless of their relative orientations to each other, could function synergistically to enhance the MS promoter activity. At least two copies of the 30-bp fragment were required to bestow TPA induction upon the thymidine kinase gene promoter of herpes simplex virus type 1. The MSTRE-I sequence could also be bound by a Fos-GCN4 chimeric protein but with an affinity much lower than that between the chimeric protein and the AP-1 binding site. This MSTRE-I region has strong homology to one of the TPA-responsive elements (the ZII domain) in the upstream sequence of the EBV BZLF1 gene. In addition, a putative negative regulatory region or silencer was found immediately downstream of the MSTRE-I enhancer. This potential silencer region contains a 14-bp sequence that is homologous to the silencer consensus sequence of the BZLF1 gene. Therefore, the regulation of the MS gene may share the same pathway with the immediate early gene BZLF1.

Library-independent cloning of genomic fragments adjacent to vector integration sites: Isolation of the EB4-PSV gene from a Dictyostelium gene disruption transformant

We have designed an efficient procedure to clone genomic DNA adjacent to the integration site of transformation vectors. Using this method on a Dictyostelium gene disruption transformant, we have cloned a 5kb fragment which has previously escaped isolation by conventional library screening. Our protocol eliminates recloning of the original vectors which are often integrated in multiple tandem copies (1) but specifically recovers vectors containing genomic fragments adjacent to the integration site. The protocol is useful to isolate flanking fragments in gene disruption transformants to characterize flanking regions which may influence the expression of transformed genes by position effects and to identify sites of insertional mutagenesis.

Genetic transformation of auxotrophic mutants of the filamentous yeastTrichosporon cutaneum using homologous and heterologous marker genes

A transformation system for the filamentous yeast Trichosporon cutaneum based on auxotrophic markers is presented and techniques for the induction, isolation and characterization of mutants are described. A number of auxotrophic mutants were isolated and characterized by using biosynthetic precursors and/or inhibitors. A mutant unable to grow in the presence of ornithine could be complemented successfully by spheroplast transformation experiments using the cloned Aspergillus nidulans ornithine transcarbamoylase gene (argB gene) as selection marker with an efficiency of 5-100 transformants per microgram of DNA. In these transformants the heterologous argB gene was present in multiple tandem copies and the transforming DNA was found to remain stable after more than 50 generations in non-selective media. The same mutant could be complemented by a T. cutaneum cosmid gene library and a complementary cosmid was subsequently isolated from this library by a sib-selection strategy. This cosmid transformed T. cutaneum spheroblasts with an efficiency of 50-200 colonies per microgram of DNA. Southern blot analyses were consistent with the view that the transforming sequences became stably integrated into the host genome at the homologous site.

Immediate early protein of pseudorabies virus is a general transactivator but stimulates only suboptimally utilized promoters: A clue to specificity?

Pseudorabies virus, a herpesvirus, encodes an immediate early (IE) protein that is known to be a general and strong transactivator of transcription. We have tested the activity of this IE protein with a set of well-defined promoters containing a TATA box and one type of upstream factor binding site (for Sp1, NF-kappa B, heavy metal responsive factors, octamer factors or glucocorticoid receptor). All promoters were strongly activated by IE protein, i.e. the IE protein did not preferentially activate transcription via a particular type of upstream element. Activation did not require a bona fide TATA box, since a promoter construct with three Sp1 sites but no TATA box was also activated. Our data are not compatible with a model in which IE protein would bypass the need for upstream factors. Rather, the properties of IE protein, especially a failure to induce strong transcription from a promoter with only a TATA box but no upstream sequences, mimic the action of a remotely placed, cis-active, enhancer DNA. The IE protein was found to have no effect on transcription units that are expressed to their maximal potential, irrespective of whether this was high or low. Such optimal transcription conditions are observed in the presence of a strong enhancer, or with multiple tandem copies of an upstream binding site and/or a high concentration of the corresponding factor. The property of stimulating only "suboptimally" utilized promoters may be exploited by pseudorabies virus to restrict the specificity of the IE protein to the viral early promoters and a subset of cellular promoters.

Genetic transformation of the filamentous yeast, Trichosporon cutaneum, using dominant selection markers

An efficient transformation system for the filamentous yeast, Trichosporon cutaneum, has been developed. Transformation was obtained with plasmids carrying either the Escherichia coli hygromycin B phosphotransferase-encoding gene ( hph) or the Streptoalloteichus hindustanus phleomycin-resistance gene ( ble), as dominant selection markers. Expression of both resistance-conferring genes was controlled by the gpd promoter and the trpC terminator, from Aspergillus nidulans. The transformation frequency was up to 500 colonies/μg of transforming DNA, using the ble gene, and up to 100 colonies/μg of transforming DNA, using the hph gene. Co-transformation frequencies using unselected DNA varied between 50 and 65%. The transforming DNA was found to consist of multiple tandem plasmid copies of high M r. This polymeric structure, in nonselective media, was mitotically unstable, possibly indicating that it existed in an episomal state.

Transformation of the mycoparasite Gliocladium

Gliocladium roseum and G. virens are saprophytic fungi with biological control activity against various plant pathogens, including those causing seedling diseases in cotton. Genetic transformation systems were developed to provide the potential for incorporating additional traits to improve the biocontrol efficacy of Gliocladium. Gliocladium roseum protoplasts were transformed with G. virens genomic DNA. The 6.7 kb plasmid pH1S containing a bacterial hygromycin B resistance gene, hygB, was used to transform G. virens. Up to ten methionine-independent G. roseum transformants were recovered per microgram of G. virens DNA. Transformation frequencies as high as 150 hygromycin B-resistant transformants per microgram of circular palsmid DNA were observed with electroporation at a field strength of 500 V/cm. Total DNA was isolated from G. virens transformants and hybridized to purified hygB or pBR322 (the vector used in the pH1S construct) DNA. The hygB DNA was integrated into genomic DNA. Precise excision of the plasmid by two different restriction endonucleases provided evidence for the presence of multiple tandem copies in some transformants. The presence of multiple bands in digests of other transformants suggested multiple sites of integration.

Transformation by Complementation of an Adenine Auxotroph of the Lignin-Degrading Basidiomycete Phanerochaete chrysosporium

Swollen basidiospores of an adenine auxotroph of Phanerochaete chrysosporium were protoplasted with Novozyme 234 and transformed to prototrophy by using a plasmid containing the gene for an adenine biosynthetic enzyme from Schizophyllum commune. Transformation frequencies of 100 transformants per mug of DNA were obtained. Southern blot analysis of DNA extracted from transformants demonstrated that plasmid DNA was integrated into the chromosomal DNA in multiple tandem copies. Analysis of conidia and basidiospores from transformants demonstrated that the transforming character was mitotically and meiotically stable on both selective and nonselective media. Genetic crosses between double mutants transformed for adenine prototrophy and other auxotrophic strains yielded Ade progeny, which indicated that integration occurred at a site(s) other than the resident adenine biosynthetic gene.

The CUP2 gene product regulates the expression of the CUP1 gene, coding for yeast metallothionein.

The yeast CUP1 gene codes for a copper-binding protein similar to metallothionein. Copper sensitive cup1s strains contain a single copy of the CUP1 locus. Resistant strains (CUP1r) carry 12 or more multiple tandem copies. We isolated 12 ethyl methane sulfonate-induced copper sensitive mutants in a wild-type CUP1r parental strain, X2180-1A. Most mutants reduce the copper resistance phenotype only slightly. However, the mutant cup2 lowers resistance by nearly two orders of magnitude. We cloned CUP2 by molecular complementation. The smallest subcloned fragment conferring function was approximately 2.1 kb. We show that CUP2, which is on chromosome VII, codes for or controls the synthesis or activity of a protein which binds the upstream control region of the CUP1 gene on chromosome VIII. Mutant cup2 cells produced extremely low levels of CUP1-specific mRNA, with or without added copper ions and lacked a factor which binds to the CUP1 promoter. Integrated at the cup2 site, the CUP2 plasmid restored the basal level and inducibility of CUP1 expression and led to reappearance of the CUP1-promoter binding factor. Taken collectively, our data establish CUP2 as a regulatory gene for expression of the CUP1 metallothionein gene product.

1H-NMR studies of synthetic polypeptide models of Plasmodium falciparum circumsporozoite protein tandemly repeated sequence.

The major immunodominant region of the coating protein of Plasmodium falciparum sporozoites contains multiple tandem copies of the sequence Asn-Ala-Asn-Pro (NANP). Current efforts for the development of an antisporozoite vaccine are focused on the synthesis of polypeptides reproducing part of the circumsporozoite protein repeat sequence and, in an attempt to relate conformational properties and biological response, 1H-nmr one- and two-dimensional studies of the synthetic models (NANP)2NA and (NANP)6 were carried out in water and water/methanol mixtures, at 400 and 500 MHz. In water, (NANP)6 undergoes fast conformational averaging. At variance, in water/methanol, the molecule appears to adopt an extensive structure, but detailed analysis is impaired by high spectral degeneracy. Based on the results obtained with (NANP)2NA and from preliminary experiments in water/trifluoroethanol, an interpretation is suggested for the (NANP)6 data in water/methanol in terms of a mixed sequence of beta I-turns and half-turns (or/and gamma I-turns) around the positions Ni-1-Pi-Ni + 1.

Characterization of antigen receptor response elements within the interleukin-2 enhancer.

T-cell activation and induction of interleukin-2 (IL-2) expression in human T lymphocytes require both interaction of foreign antigen with the T-cell antigen receptor and protein kinase C (PKC) stimulation. Agents such as phorbol 12-myristate 13-acetate (PMA) that stimulate PKC augment the effects of antigen but are not sufficient for IL-2 activation. By analysis of deletion mutants, we identified three DNA sequences extending from -73 to -89, -217 to -255, and -263 to -279, designated IL-2 sites A, D, and E, respectively, that are required for maximal induction of IL-2 expression. One of these regions, site E, interacted with a protein (NF-IL-2E) present only in the nuclei of cells which have been stimulated. The other two sequences interacted with a protein (NF-IL-2A) that is constitutively expressed in T cells. When multiple tandem copies of either the E site or the A site were placed upstream of the gamma-fibrinogen promoter, they activated expression via this promoter in response to signals initiated at the antigen receptor but not following PMA stimulation. For this reason, we denoted them antigen receptor response elements. The uncoupling of antigen receptor and PKC requirements in these studies indicates that these signal pathways are, at least in part, distinct and integrated at the level of the gene.

Characterization of antigen receptor response elements within the interleukin-2 enhancer.

T-cell activation and induction of interleukin-2 (IL-2) expression in human T lymphocytes require both interaction of foreign antigen with the T-cell antigen receptor and protein kinase C (PKC) stimulation. Agents such as phorbol 12-myristate 13-acetate (PMA) that stimulate PKC augment the effects of antigen but are not sufficient for IL-2 activation. By analysis of deletion mutants, we identified three DNA sequences extending from -73 to -89, -217 to -255, and -263 to -279, designated IL-2 sites A, D, and E, respectively, that are required for maximal induction of IL-2 expression. One of these regions, site E, interacted with a protein (NF-IL-2E) present only in the nuclei of cells which have been stimulated. The other two sequences interacted with a protein (NF-IL-2A) that is constitutively expressed in T cells. When multiple tandem copies of either the E site or the A site were placed upstream of the gamma-fibrinogen promoter, they activated expression via this promoter in response to signals initiated at the antigen receptor but not following PMA stimulation. For this reason, we denoted them antigen receptor response elements. The uncoupling of antigen receptor and PKC requirements in these studies indicates that these signal pathways are, at least in part, distinct and integrated at the level of the gene.

Agrobacterium-mediated inoculation of plants with tomato golden mosaic virus DNAs

We have adapted the "agroinfection" procedure of Grimsley and co-workers [4,5] to develop a simple, efficient, reproducible infectivity assay for the insect-transmitted, split-genome geminivirus, tomato golden mosaic virus (TGMV). Agrobacterium T-DNA vectors provide efficient delivery of both components of TGMV when used in mixed inoculation of wild-type host plants. A greater increase in infection efficiency can be obtained by Agrobacterium delivery of the TGMV A component to "permissive" transgenic plants. These "permissive" plants contain multiple tandem copies of the B component integrated into the host genome. An inoculum containing as few as 2000 Agrobacterium cells can produce 100% infection under these conditions. Further, our results show that there is a marked effect of the configuration of the TGMV A components within the T-DNA vector on time of symptom development. We have also found that transgenic plants carrying tandem copies of the A component do not complement the B component. Possible mechanisms to explain these results and the potential use of this system to further study the functions of the geminivirus components in infection are discussed.

Multiple copies of the amdS gene of Aspergillus nidulans cause titration of trans-acting regulatory proteins.

It has been established that a plasmid containing the amdS gene of Aspergillus nidulans may be used to transform amdS+ strains by selecting for increased utilization of acetamide as sole nitrogen source. Analysis of transformants has shown that multiple tandem copies of the plasmid can be integrated into the chromosome, commonly at sites other than the amdS locus. While the transformed phenotype was relatively stable through mitotic and meiotic divisions evidence was found for variation in plasmid copy number presumably due to unequal recombination events. Expression of the integrated amdS genes was related to copy number, and the amdS RNA produced was similar in size to wild-type RNA. Evidence for titration of the product of the regulatory gene amdR by multiple copies of amdS was found. No titration of the product of the areA gene was observed, and amdS expression was still dependent on areA function. Multiple copies of the amdI9 mutation resulted in poor growth on acetate. This was not observed in the case of the amdS+ gene. The cis-acting amdI9 mutation causes increased facB dependent acetate induction of amdS expression. Titration of the facB gene produce by amdI9 DNA, but not by amdS+ DNA, therefore suggested that the mutation results in increased affinity for the facB gene product.

Discrete elements within the SV40 enhancer region display different cell-specific enhancer activities.

The SV40 enhancer contains three genetically defined elements, called A, B and C, that can functionally compensate for one another. By using short, synthetic DNA oligonucleotides, we show that each of these elements can act autonomously as an enhancer when present as multiple tandem copies. Analysis of a progressive series of B element oligomers shows a single element is ineffective as an enhancer and that the activity of two or more elements increases with copy number. Assay in five different cell lines of two separate enhancers containing six tandem copies of either the B or C element shows that these elements possess different cell-specific activities. Parallel oligomer enhancer constructs containing closely spaced double point mutations display no enhancer activity in any of the cell lines tested, indicating that these elements represent single units of enhancer function. These elements contain either a 'core' or 'octamer' consensus sequence but these consensus sequences alone are not sufficient for enhancer activity. The different cell-specific activities of the B and C elements are consistent with functional interactions with different trans-acting factors. We discuss how tandem duplication of such dissimilar elements, as in the wild-type SV40 72-bp repeats, can serve to expand the conditions under which an enhancer can function.

A versatile transformation system for the cellulolytic filamentous fungus Trichoderma reesei

An efficient transformation system for the cellulolytic filamentous fungus Trichoderma reesei has been developed. Transformation was obtained with plasmid carrying the dominant selectable marker amdS or the argB gene of Aspergillus nidulans, which was found to complement the respective argB mutation of T. reesei. The transformation frequency can be up to 600 transformants per μg of transforming DNA. The efficiency of co-transformation with unselected DNA was high (approx. 80%). The transforming DNA was found to be integrated at several different locations, often in multiple tandem copies in the T. reesei genome. In addition, the Escherichia coli β-galactosidase was expressed in T. reesei in enzymatically active form from the A. nidulans gpd promoter.

Integrative transformation of Aspergillus oryzae with a plasmid containing the Aspergillus nidulans argB gene.

The transformation of Aspergillus oryzae has been achieved with a plasmid carrying the Aspergillus nidulans argB gene coding for ornithine carbamoyltransferase (OCTase). The frequency of transformation was relatively low (0.7 transformants/μg DNA) but the transformed phenotype was extremely stable for many generations without selective pressure. Southern blot analysis revealed that transformation had occurred by integration of multiple tandem copies of plasmid DNA into the host genome through non-homologous recombination. There was no evidence of the existence of free plasmid in the transformants. The number of integrated copies of the plasmid ranged from 15 to 60. The specific activity of OCTase in the cellfree extract was proportional to the copy number of the plasmid, indicating that most of the integrated argB gene was expressed.

Evolution and higher-order structure of architectural proteins in silkmoth chorion.

Genomic and cDNA clones have been sequenced that encode the E2 silkmoth chorion protein. E2 assembles with E1 [Regier, J.C. and Pacholski, P. (1985) Proc. Natl. Acad. Sci. USA, 82, 6035-6039] to form the 'filler' that helps mold prominent chorion surface structures called aeropyle crowns. E2 has two distinct domains. The amino terminal domain consists of four alternating stretches of hydrophobic and hydrophilic residues, the first three of which are homologous in sequence to about half of the E1 protein. Comparison of predicted secondary structures provides further support for the localized homology of E2 and E1. The carboxy terminal domain of E2 is much longer, is hydrophilic and consists entirely of multiple tandem copies of a single, variant hexapeptide repeat sequence that is absent from E1. Numbers of hexapeptide repeat sequences differed dramatically in two animals. The types of events required for such variation are discussed. Finally, we have elaborated our earlier model for how E proteins may assemble in vivo to form filler.