Expression of brain subtype creatine kinase in the zebrafish embryo

Creatine kinases (CK) play crucial roles in intracellular energy transfer. We have isolated a cDNA from zebrafish embryos, which encodes a CK highly related to the mammalian brain subtype creatine kinase (BCK). The bck mRNA is expressed maternally in the zebrafish embryo and transcripts are distributed uniformly in blastula and gastrula stages. Expression becomes restricted to the prechordal plate and the nervous system during subsequent somitogenesis stages. bck transcripts are abundant in primary neurons in the developing central nervous system of the 1-day-old embryo. While some bck expression persists in the hindbrain, expression vanishes in the spinal cord of the 2-day-old embryo. In summary, the expression pattern of bck is highly dynamic and suggests a role for bck during gastrulation and neuronal differentiation.

The number of a U3 repeat box acting as an enhancer in long terminal repeats of polytropic replication-competent porcine endogenous retroviruses dynamically fluctuates during serial virus passages in human cells

The organization and transcriptional regulation of porcine endogenous retrovirus (PERV) long terminal repeats (LTRs) are unknown. We have studied the activity of LTRs from replication-competent molecular clones by performing luciferase reporter assays. The LTRs differ in the presence and number of 39-bp repeats located in U3 that confer strong promoter activity in human, simian, canine, feline, and porcine cell lines, whereas for LTRs devoid of the repeats, the promoter strength was significantly reduced. As the activity of a heterologous simian virus 40 promoter and a homologous repeat-deficient LTR was elevated by four 39-bp repeats independently of its orientation and location, the repeat box complies with the definition of an enhancer. During serial virus passaging of molecular PERV clones on human 293 cells, proviral LTRs demonstrated adaptation of transcriptional activity by dynamic changes of the number of 39-bp repeats in the course of up to 12 passaging cycles.

The flanking regions of PsaD drive efficient gene expression in the nucleus of the green alga Chlamydomonas reinhardtii

The nuclear gene PsaD encodes an abundant chloroplast protein located on the stromal side of the Photosystem I complex. We have cloned and sequenced a genomic fragment containing the PsaD gene from the green alga Chlamydomonas reinhardtii. Sequence comparison with its cDNA revealed that the PsaD ORF contains no introns. Thus, the regulatory sequences required for high-level expression of PsaD must lie in the flanking promoter and untranslated regions. We used this genomic fragment to construct a vector that allows for high-level expression of endogenous and exogenous genes, as well as cDNAs that could not be expressed from existing vectors. It is also possible to use the PsaD transit sequence to target the expressed protein to the chloroplast compartment.

Comparison of replication-competent molecular clones of porcine endogenous retrovirus class A and class B derived from pig and human cells

Vertically transmitted endogenous retroviruses pose an infectious risk in the course of pig-to-human transplantation of cells, tissues, and organs. Two classes of polytropic type C porcine endogenous retroviruses (PERV) which are infectious for human cells in vitro are known. Recently, we described the cloning and characterization of replication-competent PERV-B sequences from productively infected human cells (F. Czauderna, N. Fischer, K. Boller, R. Kurth, and R. R. Tönjes, J. Virol. 74:4028-4038, 2000). Here, we report the isolation of infectious molecular PERV-A and PERV-B clones from pig cells and compare these proviruses with clones derived from infected human 293 cells. In addition to clone PERV-A(42) derived from 293 cells, four "native" full-length proviral PERV sequences derived from a genomic library of the porcine cell line PK15 were isolated. Three identical class A clones, designated PK15-PERV-A(42), PK15-PERV-A(45), and PK15-PERV-A(58), and one class B clone, PK15-PERV-B(213), were characterized. PK15-PERV-B(213) is highly homologous but distinct from the previously described clone PERV-B(43). PK15-PERV-A(58) demonstrates close homology to PERV-A(42) in env and to PERV-C in long terminal repeat, gag, and pro/pol sequences. All three PERV clones described here were replication competent upon infection of susceptible cell lines. The findings suggest that the pig genome harbors a limited number of infectious PERV-A and -B sequences.

A crucial component of the endoderm formation pathway, CASANOVA, is encoded by a novel sox-related gene

casanova (cas) mutant zebrafish embryos lack endoderm and develop cardia bifida. In a substractive screen for Nodal-responsive genes, we isolated an HMG box-containing gene, 10J3, which is expressed in the endoderm. The cas phenotype is rescued by overexpression of 10J3 and can be mimicked by 10J3-directed morpholinos. Furthermore, we identified a mutation within 10J3 coding sequence that cosegregates with the cas phenotype, clearly demonstrating that cas is encoded by 10J3. Epistasis experiments are consistent with an instructive role for cas in endoderm formation downstream of Nodal signals and upstream of sox17. In the absence of cas activity, endoderm progenitors differentiate into mesodermal derivatives. Thus, cas is an HMG box-containing gene involved in the fate decision between endoderm and mesoderm that acts downstream of Nodal signals.

Ribavirin inhibits West Nile virus replication and cytopathic effect in neural cells

West Nile virus (WNV) is an emerging mosquito-borne pathogen that was reported for the first time in the Western hemisphere in August 1999, when an encephalitis outbreak in New York City resulted in 62 clinical cases and 7 deaths. WNV, for which no antiviral therapy has been described, was recently recovered from a pool of mosquitoes collected in New York City. In anticipation of the recurrence of WNV during the summer of 2000, an analysis was made of the efficacy of the nucleoside analogue ribavirin, a broad-spectrum antiviral compound with activity against several RNA viruses, for treatment of WNV infection. High doses of ribavirin were found to inhibit WNV replication and cytopathogenicity in human neural cells in vitro.

Direct action of the nodal-related signal cyclops in induction of sonic hedgehog in the ventral midline of the CNS

The secreted molecule Sonic hedgehog (Shh) is crucial for floor plate and ventral brain development in amniote embryos. In zebrafish, mutations in cyclops (cyc), a gene that encodes a distinct signal related to the TGF(beta) family member Nodal, result in neural tube defects similar to those of shh null mice. cyc mutant embryos display cyclopia and lack floor plate and ventral brain regions, suggesting a role for Cyc in specification of these structures. cyc mutants express shh in the notochord but lack expression of shh in the ventral brain. Here we show that Cyc signalling can act directly on shh expression in neural tissue. Modulation of the Cyc signalling pathway by constitutive activation or inhibition of Smad2 leads to altered shh expression in zebrafish embryos. Ectopic activation of the shh promoter occurs in response to expression of Cyc signal transducers in the chick neural tube. Furthermore an enhancer of the shh gene, which controls ventral neural tube expression, is responsive to Cyc signal transducers. Our data imply that the Nodal related signal Cyc induces shh expression in the ventral neural tube. Based on the differential responsiveness of shh and other neural tube specific genes to Hedgehog and Cyc signalling, a two-step model for the establishment of the ventral midline of the CNS is proposed.

Generation and testing of a highly specific anti-serum directed against porcine endogenous retrovirus nucleocapsid

Advances in xenotransplantation offer chances to alleviate the shortage of human donor organs. The discovery that pig endogenous retroviruses (PERV) can infect human cells in vitro has stimulated the discussion on infectious risk in xenotransplantation. A molecular and immunologic monitoring of xenograft recipients and of donor animals for putative infection with PERV and other microorganisms is inevitable. In this report, we describe the generation and testing of a highly specific anti-serum directed against the PERV nucleocapsid protein. The Gag amino acid (aa) sequence of PERV class B was used to define immunogenic domains by computer analysis. A peptide corresponding to the C-terminal 19 aa of the 10 kDa (p10) nucleocapsid (NC) portion of the Gag polyprotein was used to immunize rabbits. The generated serum was tested using recombinant PERV Gag protein expressed in insect cells, purified PERV virus particles and human 293 cells transfected or infected with PERV, respectively. Test methods included Western blotting, indirect immunofluorescence, immunoperoxidase assay and ELISA. The PERV anti-serum provides a tool that is instrumental for detection of a potential agent of zoonosis. It can be used for screening of donor animals and xenograft recipients in the course of xenotransplantation procedures.

Spatiotemporal regulation of hnRNP M and 2H9 gene expression during mouse embryonic development

Using the HeLa cell model along with an in vitro splicing system, we have previously shown that hnRNP M and 2H9 are involved in the pre-mRNA splicing process and most interestingly also in heat shock-induced transient splicing arrest by transiently leaving the hnRNP complexes. Due to this unique regulatory function in a mechanism that turns splicing on and off, these two hnRNPs appear as important proteins for controlling gene expression. Here we investigated by in situ hybridization and immunohistochemical staining techniques the expression level of specific mRNA and protein during mouse embryonic development. HnRNP M and 2H9 are found to be expressed at all examined stages (6.5-18.5 days post-coïtum), in a differential manner, and at various levels depending on tissues, cell types and also embryonic stages; fairly high levels of both hnRNPs are always observed in the central nervous system. Furthermore, levels of colocalizing protein and transcript are not always present in the same proportion, thus suggesting a post-transcriptional regulation of hnRNP M and 2H9 gene expression. The complex spatiotemporal variations we observed might well anticipate a role for these two hnRNPs also in modulating splicing, thereby influencing gene expression and further many physiological processes.

Chloroplast site-directed mutagenesis of photosystem I in Chlamydomonas: electron transfer reactions and light sensitivity

The photosystem I (PSI) complex is a multisubunit protein-pigment complex embedded in the thylakoid membrane which acts as a light-driven plastocyanin/cytochrome c(6)-ferredoxin oxido-reductase. The use of chloroplast transformation and site-directed mutagenesis coupled with the biochemical and biophysical analysis of mutants of the green alga Chlamydomonas reinhardtii with specific amino acid changes in several subunits of PSI has provided new insights into the structure-function relationship of this important photosynthetic complex. In particular, this molecular-genetic analysis has identified key residues of the reaction center polypeptides of PSI which are the ligands of some of the redox cofactors and it has also provided important insights into the orientation of the terminal electron acceptors of this complex. Finally this analysis has also shown that mutations affecting the donor side of PSI are limiting for overall electron transfer under high light and that electron trapping within the terminal electron acceptors of PSI is highly deleterious to the cells.

Expression and characterization of the Borna disease virus polymerase

Borna disease virus is the prototype of a new family, Bornaviridae, within the order Mononegavirales, that is characterized by nuclear transcription, splicing, low level replication, and neurotropism. The products of five open reading frames predicted from the genomic sequence have been confirmed; however, expression of the sixth, corresponding to the putative viral polymerase (L), has not been demonstrated. Here, we describe expression and characterization of a 190-kDa protein proposed to represent L. Expression of this protein from the third transcription unit of the viral genome is dependent on a splicing event that fuses a small upstream open reading frame in frame with the larger downstream continuous open reading frame. The protein is detected by serum antibodies from infected rats and is present in the nucleus, where it colocalizes with the phosphoprotein. L is also shown to be phosphorylated by cellular kinases and to interact with the viral phosphoprotein in coimmunoprecipitation studies. These findings are consistent with the identity of the 190-kDa protein as the viral polymerase and provide insights and describe reagents that will be useful for Bornavirus molecular biology and pathobiology.

Establishment and characterization of molecular clones of porcine endogenous retroviruses replicating on human cells

The use of pig xenografts is being considered to alleviate the shortage of allogeneic organs for transplantation. In addition to the problems overcoming immunological and physiological barriers, the existence of numerous porcine microorganisms poses the risk of initiating a xenozoonosis. Recently, different classes of type C porcine endogenous retoviruses (PERV) which are infectious for human cells in vitro have been partially described. We therefore examined whether completely intact proviruses exist that produce infectious and replication-competent virions. Several proviral PERV sequences were cloned and characterized. One molecular PERV class B clone, PERV-B(43), generated infectious particles after transfection into human 293 cells. A second clone, PERV-B(33), which was highly homologous to PERV-B(43), showed a G-to-A mutation in the first start codon (Met to Ile) of the env gene, preventing this provirus from replicating. However, a genetic recombinant, PERV-B(33)/ATG, carrying a restored env start codon, became infectious and could be serially passaged on 293 cells similar to virus clone PERV-B(43). PERV protein expression was detected 24 to 48 h posttransfection (p. t.) using cross-reacting antiserum, and reverse transcriptase activity was found at 12 to 14 days p.t. The transcriptional start and stop sites as well as the splice donor and splice acceptor sites of PERV mRNA were mapped, yielding a subgenomic env transcript of 3. 1 kb. PERV-B(33) and PERV-B(43) differ in the number of copies of a 39-bp segment in the U3 region of the long terminal repeat. Strategies to identify and to specifically suppress or eliminate those proviruses from the pig genome might help in the production of PERV-free animals.

Characterization of zebrafish smad1, smad2 and smad5: the amino-terminus of smad1 and smad5 is required for specific function in the embryo

Members of the TGFbeta superfamily of signalling molecules play important roles in mesendoderm induction and dorsoventral patterning of the vertebrate embryo. We cloned three intracellular mediators of TGFbeta signalling, smad1, 2 and 5, from the zebrafish. The three smad genes are expressed ubiquitously at the onset of gastrulation. The pattern of expression becomes progressively restricted during somitogenesis suggesting that at later stages not only the distribution of the TGFbeta signal but also that of the intracellular smad signal transducer determine the regionally restricted effects of TGFbeta signalling. Forced expression of smad1 leads to an expansion of blood cells resembling the phenotype of moderately ventralized zebrafish mutants. In contrast to Smad1, neither Smad2 nor Smad5 caused a detectable effect when expressed as full-length molecules suggesting that these latter two Smads are more dependent on activation by the cognate TGFbeta ligands. N-terminal truncated Smad2 dorsalized embryos, in agreement with a role downstream of dorsalizing TGFbeta members such as Nodals. In contrast to the C-terminal MH2 domain of Smad2, the C-terminal region of Smad1 and Smad5 lead to pleiotropic effects in embryos giving rize to both dorsalized and ventralized characteristics in injected embryos. Analysis of truncated zebrafish Smad1 in Xenopus embryos supports the notion that the C-terminal domain of smad1 is both a hypomorph and antimorph which can act as activator or inhibitor depending on the region of expression in the embryo. These results indicate a specific function of the MH1 domain of Smad1 and 5 for activity of the molecules.

[Management of cleft lip and/or palate diagnosed in utero]

OBJECTIVE OF THE STUDY

To assess the usefulness of fetal karyotyping in the management of facial cleft lip with or without cleft palate diagnosed during pregnancy and to determine which etiologic and prognosis criteria are helpful to consider for prenatal counselling.

MATERIAL AND METHODS

Retrospective study on 35 cases of facial cleft lip and/or palate prenatally diagnosed by ultrasound examination and managed in our fetal medicine unit from 1 January 1989 to 31 December 1996. Complete follow-up was obtained for all fetuses.

RESULTS

In our series, the mean gestational age at diagnosis was 25 weeks. In 43% of the cases, additional sonographic anomalies were also recognized. These associated anomalies were more frequent when amniotic fluid quantity was abnormal. Fetal chromosomal determination was conducted in 2/3 of fetuses and numeric or structural abnormalities were found in 20% not related to the cleft size or type (lip and/or palate). All fetuses with isolated facial cleft were chromosomally normal. We report 4 midline clefts, all of them were associated with additional sonographic findings and 3 were part of an holoprosencephaly.

CONCLUSION

Prenatal diagnosis of cleft lip and/or palate must draw attention to associated sonographic anomalies especially when amniotic fluid quantity is abnormal. Chromosomal karyotyping is not necessary when facial clefting is isolated except in cases diagnosed early in pregnancy. Midline clefts must draw attention on cerebral midline integrity.

Site-directed mutagenesis of the PsaC subunit of photosystem I. F(b) is the cluster interacting with soluble ferredoxin

The two [4Fe-4S] clusters F(A) and F(B) are the terminal electron acceptors of photosystem I (PSI) that are bound by the stromal subunit PsaC. Soluble ferredoxin (Fd) binds to PSI via electrostatic interactions and is reduced by the outermost iron-sulfur cluster of PsaC. We have generated six site-directed mutants of the green alga Chlamydomonas reinhardtii in which residues located close to the iron-sulfur clusters of PsaC are changed. The acidic residues Asp(9) and Glu(46), which are located one residue upstream of the first cysteine liganding cluster F(B) and F(A), respectively, were changed to a neutral or a basic amino acid. Although Fd reduction is not affected by the E46Q and E46K mutations, a slight increase of Fd affinity (from 1.3- to 2-fold) was observed by flash absorption spectroscopy for the D9N and D9K mutant PSI complexes. In the FA(2) triple mutant (V49I/K52T/R53Q), modification of residues located next to the F(A) cluster leads to partial destabilization of the PSI complex. The electron paramagnetic resonance properties of cluster F(A) are affected, and a 3-fold decrease of Fd affinity is observed. The introduction of positively charged residues close to the F(B) cluster in the FB(1) triple mutant (I12V/T15K/Q16R) results in a 60-fold increase of Fd affinity as measured by flash absorption spectroscopy and a larger amount of PsaC-Fd cross-linking product. The first-order kinetics are similar to wild type kinetics (two phases with t((1)/(2)) of <1 and approximately 4.5 microseconds) for all mutants except FB(1), where Fd reduction is almost monophasic with t((1)/(2)) < 1 microseconds. These data indicate that F(B) is the cluster interacting with Fd and therefore the outermost iron-sulfur cluster of PSI.

Replication of a foamy virus mutant with a constitutively active U3 promoter and deleted accessory genes

Foamy viruses (FVs) are complex retroviruses which require for their replication the activity of a transcriptional trans-activator (Tas) as well as Tas-responsive elements in the viral promoters. A mutant of the chimpanzee FV strain, CFV/hu (previously called human FV), genome in which most of the U3 promoter of the CFV long terminal repeat was substituted by the constitutively active human cytomegalovirus immediate early gene enhancer/promoter was constructed. This plasmid (pTS12) and a derivative (pTS13), which has a deletion in the tas gene, gave rise to replication-competent virus. Compared with parental CFV, both mutants replicated only very poorly, with retarded growth kinetics and maximal cell-free virus titres reduced by approximately three orders of magnitude. Mutation of the DD35E motif of the CFV integrase to DA35E rendered the recombinant TS virus replication-deficient. This indicated that provirus integration is probably still required for this FV derivative, which had been converted from a complex regulated retrovirus into a simple one by incorporation of a constitutively active promoter from another virus which regularly does not integrate into the host cell genome.

Lys35 of PsaC is required for the efficient photoreduction of flavodoxin by photosystem I from Chlamydomonas reinhardtii

The photoreduction of the oxidized and the semiquinone form of flavodoxin from Synechocystis sp. PCC 6803 by the photosystem I (PSI) of wild-type Chlamydomonas reinhardtii and the mutant strains Lys35Asp, Lys35Glu and Lys35Arg was analysed by flash-absorption spectroscopy to investigate the role of residue Lys35 of the PSI subunit PsaC in flavodoxin reduction. For PSI preparations from C. reinhardtii the reduction of oxidized flavodoxin was monoexponential and approached limiting electron transfer rates similar to those of cyanobacterial PSI from the wild-type and the Lys35Arg mutant. For PSI from the Lys35Glu mutant, however, a approximately 2.5-fold smaller value was determined. The photoreduction of flavodoxin semiquinone by PSI from C. reinhardtii lacked fast first-order kinetic components and, in contrast with PSI from cyanobacteria, displayed only a single concentration-dependent phase. From this phase, second-order rate constants were calculated for wild-type PSI and PSI from the Lys35Arg mutant which were comparable to those of PSI from cyanobacteria. For PSI from the Lys35Glu and the Lys35Asp mutants the derived second-order rate constants were 19 and 10 times smaller. Thus, the inversion of charge at position 35 of PsaC negatively affects the rate of electron transfer to both forms of flavodoxin, whereas PSI complexes that retain a positive charge at this position show wild-type kinetics. However, the positive charge at this position of PsaC is not essential for flavodoxin photoreduction as the number of flavodoxin molecules reduced per PSI was similar for all of the PSI complexes investigated. In addition, chemical cross-linking assays showed that the binary cross-linking product between flavodoxin and PsaC of PSI from wild-type C. reinhardtii was not formed with PSI complexes from the Lys13Asp and Lys35Glu mutants. This indicates that Lys35 of PsaC is probably essential for the chemical cross-link between PsaC and flavodoxin. Taken together, these experiments show that Lys35 of PsaC plays a strikingly similar role in the electron transfer from PSI to both ferredoxin and flavodoxin.

The role of Chlamydia trachomatis infection in cervical cancer development

Previous Chlamydia trachomatis infection elevates expression of: 1. TGFalpha in CIN I, CIN II, CIN III; 2. HPV 16 in CIN I, CIN II, CIN III and invasive carcinoma; 3. Ki 67 in CIN III and invasive carcinoma. Chronic Chlamydial infection is very often associated with cervical hypertrophy.

Intronic enhancers control expression of zebrafish sonic hedgehog in floor plate and notochord

The signalling molecule Sonic hedgehog (Shh) controls a wide range of differentiation processes during vertebrate development. Numerous studies have suggested that the absolute levels as well as correct spatial and temporal expression of shh are critical for its function. To investigate the regulation of shh expression, we have studied the mechanism controlling its spatial expression in the zebrafish. We employed an enhancer screening strategy in zebrafish embryos based on co-injection of putative enhancer sequences with a reporter construct and analysis of mosaic expression in accumulated expression maps. Enhancers were identified in intron 1 and 2 that mediate floor plate and notochord expression. These enhancers also drive notochord and floor plate expression in the mouse embryo strongly suggesting that the mechanisms controlling shh expression in the midline are conserved between zebrafish and mouse. Functional analysis in the zebrafish embryo revealed that the intronic enhancers have a complex organisation. Two activator regions, ar-A and ar-C, were identified in intron 1 and 2, respectively, which mediate mostly notochord and floor plate expression. In contrast, another activating region, ar-B, in intron 1 drives expression in the floor plate. Deletion fine mapping of ar-C delineated three regions of 40 bp to be essential for activity. These regions do not contain binding sites for HNF3beta, the winged helix transcription factor previously implicated in the regulation of shh expression, indicating the presence of novel regulatory mechanisms. A T-box transcription factor-binding site was found in a functionally important region that forms specific complexes with protein extracts from wild-type but not from notochord-deficient mutant embryos.

A large fraction of PsaF is nonfunctional in photosystem I complexes lacking the PsaJ subunit

PsaJ is a small hydrophobic subunit of the photosystem I complex (PSI) whose function is not yet fully understood. Here we describe mutants of the green alga Chlamydomonas reinhardtii, in which the psaJ chloroplast gene has been inactivated either in a wild-type or in a PsaF-deficient nuclear background. Cells lacking one or both subunits grow photoautotrophically and contain normal levels of PSI. Flash-absorption spectroscopy performed with isolated PSI particles isolated from the PsaJ-deficient strain indicates that only 30% of the PSI complexes oxidize plastocyanin (Pc) or cytochrome c6 (Cyt c6) with kinetics identical to wild type, whereas the remaining 70% follow slow kinetics similar to those observed with PsaF-deficient PSI complexes. This feature is not due to partial loss of PsaF, as the PsaJ-less PSI complex contains normal levels of the PsaF subunit. The N-terminal domain of PsaF can be cross-linked to Pc and Cyt c6 indicating that in the absence of PsaJ, this domain is exposed in the lumenal space. Therefore, the decreased amount of functional PsaF revealed by the electron-transfer measurements is best explained by a displacement of the N-terminal domain of PsaF which is known to provide the docking site for Pc and Cyt c6. We propose that one function of PsaJ is to maintain PsaF in a proper orientation which allows fast electron transfer from soluble donor proteins to P700(+).

A potential NES of the Epstein-Barr virus nuclear antigen 1 (EBNA1) does not confer shuttling

The Epstein-Barr virus nuclear antigen 1 (EBNA1) is a multifunctional protein involved in the replication and maintenance of the viral episome. We identified a potential Rev-like nuclear export signal (NES) which, however, does not confer the export of EBNA1. In the yeast two-hybrid system EBNA1 does not bind to the nuclear exporter Crm1p. In spite of the RNA-binding ability of EBNA1 and its structural homologies to RNA binding proteins like hnRNP U and/or A1, EBNA1 does not shuttle to the cytoplasm in heterokaryon analysis. We propose the function of the RNA binding of EBNA1 in retaining RNAs to the nucleus.

Functional analysis of different LMP1 proteins isolated from Epstein-Barr virus-positive carriers

The Epstein-Barr virus (EBV) is the causative agent of infectious mononucleosis and is implicated in the development of several human malignancies. Latent membrane protein 1 (LMP1), an EBV protein with known oncogenic properties, may be important in the pathogenesis of EBV-associated tumors, particularly nasopharyngeal carcinoma (NPC) and Hodgkin's disease (HD). Several reports suggested that sequence variations in the LMP1 gene may define a more aggressive, geographically restricted EBV-genotype. Most mutations in the LMP1 gene described are located within the C-terminus of the protein. However, the effect of these mutations on the biological function of the protein remains widely unknown. Therefore, this study aimed in investigating whether mutations detected in LMP1 genes isolated from different EBV-positive carriers have an effect on the biological function of the protein. For this purpose the LMP1 genes were amplified by nested PCR from DNA out of bone marrow and peripheral blood lymphocytes and sequenced. Three functional assays were performed in order to evaluate the biological activity of the different isolates: activation of the transcription factors NF-kappaB and AP-1 as well as the anchorage independent growth of LMP1 transfected ratl cells in soft agar. The results suggested that whereas differences in the activation of NF-kappaB through the various LMP1 isolates correlated tightly with their different expression levels, the outgrowth of transfected cells in soft agar did not and the transcription factor NF-kappaB therefore appeared not to be the major effector for the transformation of the rodent cell line ratl by LMP1. The various LMP1-isolates also differed in their capacity in activating the transcription factor AP-1. We found no correlation between the transforming ability of the LMPI isolates and activation of AP-1 suggesting that other so far uncharacterized domains also influence the transforming ability of the protein.