In vivoandin vitroStudies of TrpR-DNA Interactions

The binding of tryptophan repressor (TrpR) to its operators was examined quantitatively usingin vitroandin vivomethods. DNA sequence requirements for 1:1 and tandem 2 :1 (TrpR : DNA) binding in various sequence contexts were studied. The results indicate that the optimal half-site sequence for recognition by one helix-turn-helix motif of one TrpR dimer is_{3′ CNTGA 5′}^{5′ GNACT 3′}, consistent with contacts observed by X-ray diffraction analysis of cocrystalline 1:1 and 2 :1 complexes. Half-sites can be paired to form a palindrome either by direct abutment, forming the nucleation site for a tandem 2 :1 complex, or with an 8-base-pair spacer, forming a 1:1 target. Dimethylsulfate (DMS) methylation-protection footprintingin vitroof 1:1 and 2 :1 complexes formed sequentially on the two unequal half-site pairs of thetrpEDCBA operator fromSerratia marcescensindicated an obligate hierarchy of site occupancy, with one half-site pair serving as the nucleation site for tandem binding. DMS footprinting ofEscherichia colioperatorsin vivoshowed that, over a wide range of intracellular TrpR concentration, thetrpEDCBA operator is occupied by three repressor dimers,aroH is occupied by two dimers, and the 1:1 binding mode is used on thetrpR operator. The coexistence of these distinct occupancy states implies that changes in protein concentration affect only the fractional occupancy of each operator rather than the binding mode, which is determined by the number of half-site sequences present in the operator region. Cooperativity of tandem complex formation measured by gel retardation using a symmetrized synthetic operator containing identical, optimal sites spaced as in natural operators was found to be modest, implying a maximum coupling free energy of ∼−2 kcal/mol. On other sequences the apparent degree of cooperativity, as well as the apparent affinity, varied with sequence and sequence context in a manner consistent with the structural models and which suggests compensation between affinity and cooperativity as a mechanism that allows tolerance of operator sequence variation.     

COMT val158met predicts reward responsiveness in humans

A functional variant of the catechol‐O‐methyltransferase (COMT) gene [val158met (rs4680)] is frequently implicated in decision‐making and higher cognitive functions. It may achieve its effects by modulating dopamine‐related decision‐making and reward‐guided behaviour. Here we demonstrate that individuals with the met/met polymorphism have greater responsiveness to reward than carriers of the val allele and that this correlates with risk‐seeking behaviour. We assessed performance on a reward responsiveness task and the Balloon analogue risk task, which measure how participants (N = 70, western European, university and postgraduate students) respond to reward and take risks in the presence of available reward. Individuals with the met/met genotype (n = 19) showed significantly higher reward responsiveness, F_2,64 = 4.02, P = 0.02, and reward‐seeking behaviour, F(2,68) = 4.52, P = 0.01, than did either val/met (n = 25) or val/val (n = 26) carriers. These results highlight a scenario in which genotype‐dependent reward responsiveness shapes reward‐seeking, therefore suggesting a novel framework by which COMT may modulate behaviour.     

Co-operative binding of two Trp repressor dimers to α- or β-centred trp operators

The α-centred trp operator binds one dimer of the Trp repressor, whereas the β-centred trp operator binds two dimers of the Trp repressor (Carey et al., 1991; Haran et al., 1992). The Trp repressor with a Tyr-Gly-7 substitution binds almost as well as the wild-type Trp repressor to the α-centred trp operator, but it does not bind to the β-centred trp operator. This confirms that Tyr-7 is involved in the interaction between Trp repressor dimers, as seen in the crystal structure (Lawson and Carey, 1993). Further experiments with a-centred trp operator variants showed that positions 1 of the a-centred trp operators play a crucial role in tetramerisation. The two innermost base pairs of the α-centred trp operator are not involved in contacts with the dimer of the Trp repressor binding to it. However, substitutions in these positions (T-A to G-T) effectively transform the α-centred trp operator into a β-centred trp operator, and thus encourage the binding of two Trp repressor dimers to this operator. Finally, we demonstrate, with suitable heterodimers, that one subunit of each dimer suffices to bind to a β-centred trp operator.     

Studies of the Escherichia coli Trp repressor binding to its five operators and to variant operator sequences.

The Escherichia coli Trp repressor binds to promoters of very different sequence and intrinsic activity. Its mode of binding to trp operator DNA has been studied extensively yet remains highly controversial. In order to examine the selectivity of the protein for DNA, we have used electromobility shift assays (EMSAs) to study its binding to synthetic DNA containing the core sequences of each of its five operators and of operator variants. Our results for DNA containing sequences of two of the operators, trpEDCBA and aroH are similar to those of previous studies. Up to three bands of lower mobility than the free DNA are obtained which are assigned to complexes of stoichiometry 1 : 1, 2 : 1 and 3 : 1 Trp repressor dimer to DNA. The mtr and aroL operators have not been studied previously in vitro. For DNA containing these sequences, we observe predominantly one retarded band in EMSA with mobility corresponding to 2 : 1 complexes. We have also obtained retardation of DNA containing the trpR operator sequence, which has only been previously obtained with super-repressor Trp mutants. This gives bands with mobilities corresponding to 1 : 1 and 2 : 1 complexes. In contrast, DNA containing containing a symmetrized trpR operator sequence, trpRs, gives a single retarded band with mobility corresponding solely to a 1 : 1 protein dimer-DNA complex. Using trpR operator variants, we show that a change in a single base pair in the core 20 base pairs can alter the number of retarded DNA bands in EMSA and the length of the DNase I footprint observed. This shows that the binding of the second dimer is sequence selective. We propose that the broad selectivity of Trp repressor coupled to tandem 2 : 1 binding, which we have observed with all five operator sequences, enables the Trp repressor to bind to a limited number of sites with diverse sequences. This allows it to co-ordinately control promoters of different intrinsic strength. This mechanism may be of importance in a number of promoters that bind multiple effector molecules.     

Iron, DtxR, and the regulation of diphtheria toxin expression

In recent years considerable advances have been made in the understanding of the molecular basis of iron-mediated regulation of diphtheria toxin expression. The tox gene has been shown to be regulated by the heavy metal ion-activated regulatory element DtxR. In the presence of divalent heavy metal ions, DtxR becomes activated and binds to a 9 bp interrupted palindromic sequence. The consensus-binding site has been determined by both the sequence analysis of DtxR-responsive operators cloned from genomic libraries of Corynebacterium diphtheriae as well as by in vitro genetic methods using cyclic amplification of selected targets (CAST-ing). it is now clear that DtxR functions as a global iron-sensitive regulatory element in the control of gene expression in C. diphtheriae. In addition, the metal ion-activation domain of DtxR is being characterized by both mutational analysis and determination of the X-ray structure at 3.0 Å resolution.     

Immune repertoire mining for rapid affinity optimization of mouse monoclonal antibodies

Traditional hybridoma and B cell cloning antibody discovery platforms have inherent limits in immune repertoire sampling depth. One consequence is that monoclonal antibody (mAb) leads often lack the necessary affinity for therapeutic applications, thus requiring labor-intensive and time-consuming affinity in vitro engineering optimization steps. Here, we show that high-affinity variants of mouse-derived mAbs can be rapidly obtained by testing of somatic sequence variants obtained by deep sequencing of antibody variable regions in immune repertories from immunized mice, even with a relatively sparse sampling of sequence variants from large sequence datasets. Affinity improvements can be achieved for mAbs with a wide range of affinities. The optimized antibody variants derived from immune repertoire mining have no detectable in vitro off-target binding and have in vivo clearance comparable to the parental mAbs, essential properties in therapeutic antibody leads. As generation of antibody variants in vitro is replaced by mining of variants generated in vivo, the procedure can be applied to rapidly identify affinity-optimized mAb variants.     

Replication study implicates COMT val158met polymorphism as a modulator of probabilistic reward learning

Previous studies suggest that a single nucleotide polymorphism in the catechol‐O‐methyltransferase (COMT) gene (val158met) may modulate reward‐guided decision making in healthy individuals. The polymorphism affects dopamine catabolism and thus modulates prefrontal dopamine levels, which may lead to variation in individual responses to risk and reward. We previously showed, using tasks that index reward responsiveness (measured by responses bias towards reinforced stimuli) and risk taking (measured by the Balloon Analogue Risk Task), that COMT met homozygotes had increased reward responsiveness and, thus, an increased propensity to seek reward. In this study, we sought to replicate these effects in a larger, independent cohort of Caucasian UK university students and staff with similar demographic characteristics (n = 101; 54 females, mean age: 22.2 years). Similarly to our previous study, we observed a significant trial × COMT genotype interaction (P = 0.047; η² = 0.052), which was driven by a significant effect of COMT on the incremental acquisition of response bias [response bias at block 3 ? block 1 (met/met > val/val: P = 0.028) and block 3 ? block 2 (met/met > val/val: P = 0.007)], suggesting that COMT met homozygotes demonstrated higher levels of reward responsiveness by the end of the task. However, we failed to see main effects of COMT genotype on overall response bias or risk‐seeking behaviour. These results provide additional evidence that prefrontal dopaminergic variation may have a role in reward responsiveness, but not risk‐seeking behaviour. Our findings may have implications for neuropsychiatric disorders characterized by clinical deficits in reward processing such as anhedonia.     

Replication of in vitro constructed viroid mutants: location of the pathogenicity-modulating domain of citrus exocortis viroid

Sequence variants from field isolates of citrus exocortis viroid (CEV) that cause either mild or severe symptoms on tomato plants have previously been classified into two groups, A and B. These groups differ primarily in two domains, P_L and P_R, of the proposed native structure. Infectivity studies with full-length cDNA clones of variants from each class have now directly confirmed the original correlation between Class A sequences and the severe phenotype and between Class B sequences and the mild phenotype. Direct evidence for this correlation could only be obtained by using individual sequence variants since field isolates of CEV have been shown to contain a mixture of RNA species. The construction and infectivity of chimaeric cDNA clones derived from mild and severe sequence variants of CEV has demonstrated that novel, infectious viroid molecules can be generated in vitro, and that P_L is the pathogenicity-modulating domain. The role of the P_R domain is not known but infectivity experiments with one chimaeric cDNA clone suggest that it may influence the efficiency of the infection or replication process of the viroid in the plant.     

Interaction of the trp repressor with trp operator DNA fragments

The interaction of the trp repressor with several trp operator DNA fragments has been examined by DNA gel retardation assays and by circular dichroism, in the absence and presence of the corepressor l-tryptophan. The holorepressor binds stoichiometrically to both the trpO and aroH operators, forming 1:1 complexes. In the presence of excess protein, additional complexes are formed with these operator fragments. The relative electrophoretic mobilities of the 1:1 complexes differ significantly for trp and aroH operators, indicating that they differ substantially in gross structure. A mutant trp operator, trpO ^c, has low affinity for the holorepressor, and forms only complexes with stoichiometries of 2:1 (repressor: DNA) or higher, which have a very low electrophoretic mobility. Specific binding is also accompanied by a large increase in the intensity of the near ultraviolet circular dichroism, with only a small blue shift, which is consistent with significant changes in the conformation of the DNA. Large changes in the chemical shifts of three resonances in the ³¹P NMR spectrum of both the trp operator and the aroH operator occur on adding repressor only in the presence of L-tryptophan, consistent with localised changes in the backbone conformation of the DNA.Abbreviations CD circular dichroism - trpO, trpR aroH trp operator fragments - trpO ^c trpMH mutant trp operator fragments     

Single cell-produced and in vitro-assembled anti-FcRH5/CD3 T-cell dependent bispecific antibodies have similar in vitro and in vivo properties

Bispecific antibody production using single host cells has been a new advancement in the antibody engineering field. We previously showed comparable in vitro biological activity and in vivo mouse pharmacokinetics (PK) for two novel single cell variants (v10 and v11) and one traditional dual cell in vitro-assembled anti-human epidermal growth factor receptor 2/CD3 T-cell dependent bispecific (TDB) antibodies. Here, we extended our previous work to assess single cell-produced bispecific variants of a novel TDB against FcRH5, a B-cell lineage marker expressed on multiple myeloma (MM) tumor cells. An in vitro-assembled anti- FcRH5/CD3 TDB antibody was previously developed as a potential treatment option for MM. Two bispecific antibody variants (designs v10 and v11) for manufacturing anti-FcRH5/CD3 TDB in single cells were compared to in vitro-assembled TDB in a dual-cell process to understand whether differences in antibody design and production led to any major differences in their in vitro biological activity, in vivo mouse PK, and PK/pharmacodynamics (PD) or immunogenicity in cynomolgus monkeys (cynos). The binding, in vitro potencies, in vitro pharmacological activities and in vivo PK in mice and cynos of these single cell TDBs were comparable to those of the in vitro-assembled TDB. In addition, the single cell and in vitro-assembled TDBs exhibited robust PD activity and comparable immunogenicity in cynos. Overall, these studies demonstrate that single cell-produced and in vitro-assembled anti-FcRH5/CD3 T-cell dependent bispecific antibodies have similar in vitro and in vivo properties, and support further development of single-cell production method for anti-FcRH5/CD3 TDBs and other single-cell bispecifics.     

Detection of multiple sequence variants of Grapevine rupestris stem pitting‐associated virus using primers targeting the polymerase domain and partial genome sequencing of a novel variant

Grapevine rupestris stem pitting‐associated virus (GRSPaV) is a member of the genus Foveavirus within the new family Betaflexiviridae. GRSPaV is distributed among grapevines worldwide and is implicated in the disease rupestris stem pitting (RSP) of the rugose wood complex and two other disorders. GRSPaV is composed of a wide range of sequence variants, and so far, the complete genomes of five sequence variants have been sequenced. Quick and reliable detection of different GRSPaV variants is a critical step in the elimination and control of GRSPaV. Previously, primers designed from various genomic regions have been used in RT‐PCR for the detection of GRSPaV variants. The efficiency of RT‐PCR varied widely depending on the spectrum of the primers that were used. In this study, we designed a pair of degenerate primers based on the consensus sequence of the genomic region encoding the highly conserved RNA‐dependent RNA polymerase domain from five reference isolates of GRSPaV for which the genome sequence are available. We demonstrate that this set of primers is comparable, if not superior, to the broad‐spectrum primers RSP13&14 in detecting multiple GRSPaV variants. Using these degenerate primers, we identified two new and distinct sequence variants. The 3′ terminal genomic region of one of the new variants, GRSPaV‐ML, spanning the 3′ part of ORF1, through the entire open reading frames 2–4, and the 5′ region of ORF5 were sequenced. Sequence comparison demonstrates that GRSPaV‐ML is distinct from each of the five reference isolates.     

Mutational analysis of the operators of bacteriophage lambda

Summary O ^c mutations in the operators of bacteriophage lambda have been used to analyze the functional organization of the operators. In each operator, repressor binding sites 1 and 2, as identified biochemically, were found to be primarily responsible for the repressor affinity of the operators in vitro and for the repression of lytic functions in vivo. In addition, both sites were shown to be involved in the action of cro product at the operators. The data obtained have been used to estimate the repressor affinities of the individual binding sites. These affinities suggest that repressor bound at O _R1 and O _R2 interacts cooperatively. The results obtained support a model for repression of the early lambda operons where repressor bound at binding sites 1 and 2 interferes with RNA polymerase binding to the promoter sites.     

Polymorphism of the IGHA gene in sheep

Genetic variation in immunoglobulin A, the most abundant immunoglobulin in mammalian cells, has not been reported in ruminants. In this study, variation in the immunoglobulin heavy alpha chain constant gene (IGHA) of sheep was investigated by amplification of a fragment that included the hinge coding sequence, followed by single-strand conformational polymorphism (SSCP) analysis and DNA sequencing. Three novel sequences, each characterized by unique SSCP banding patterns, were identified. One or two sequences were detected in individual sheep and all the sequences identified shared high homology to the published ovine and bovine IGHA sequences, suggesting that these sequences represent allelic variants of the IGHA gene in sheep. Sequence alignment showed that these sequences differed mainly in the 3′ end of exon 1 and in the coding sequence of the hinge region. There was either a deletion or an insertion of two codons in the hinge coding region in these allelic variants. Codon usage in the hinge coding region was quite different from that in the non-hinge coding regions of the gene, suggesting different evolution of the IGHA hinge sequence. Three novel amino acid sequences of ovine IGHA were also predicted, and variation in these sequences might not only affect antigen recognition but also susceptibility to cleavage by bacterial or parasitic proteases. Nucleotide sequence data reported in this paper have been submitted to the NCBI GenBank nucleotide sequence database and have been assigned the accession nos. AY956424–AY956426.     

lac Repressor-operator interaction. IX. The binding of lac repressor to operators containing Oc mutations

Representative members of the six classes of operator constitutive (O^c) point mutations, which have been mapped and well characterized in vivo, were crossed into λφ80 lac phages. The phage DNAs containing the O^c mutations were used to measure the affinity of the lac repressor (R) for each O^c operator by determining the half-lives of the different RO^c complexes in vitro. The results provide evidence that: (a) the higher the constitutive level of β-galactosidase in vivo, as the result of an O^c mutation, the lower the affinity of the lac repressor for that O^c operator, with a maximum difference of two orders of magnitude in affinity of the repressor for the highest O^c tested as compared to the wild type O⁺ operator; (b) the six classes of O^c operators appear to be twofold degenerate, in that two members of each class, which were previously distinguished by mapping, have the same affinity for the lac repressor; (c) an inducer and an anti-inducer have the same effect on the RO^c complexes as on the RO⁺ complexes; (d) the relationship between induction ratios in vivo and the binding constant of the repressor for each O^c mutation in vitro does not follow the mass action equation but rather a more complex dependency, which is discussed.These results suggest a functional symmetry in the lac operator.