The impact of antenatal and postnatal indoor air pollution or tobacco smoke exposure on lung function at 3 years in an African birth cohort

BACKGROUND AND OBJECTIVE

Indoor air pollution (IAP) and tobacco smoke exposure (ETS) are global health concerns contributing to the burden of childhood respiratory disease. Studies assessing the effects of IAP and ETS in preschool children are limited. We assessed the impact of antenatal and postnatal IAP and ETS exposure on lung function in a South African birth cohort, the Drakenstein Child Health Study.

METHODS

Antenatally enrolled mother-child pairs were followed from birth. Lung function measurements (oscillometry, multiple breath washout and tidal breathing) were performed at 6 weeks and 3 years. Quantitative antenatal and postnatal IAP (particulate matter [PM10 ], volatile organic compounds [VOC]) and ETS exposures were measured. Linear regression models explored the effects of antenatal and postnatal exposures on lung function at 3 years.

RESULTS

Five hundred eighty-four children had successful lung function testing, mean (SD) age of 37.3 (0.7) months. Exposure to antenatal PM10 was associated with a decreased lung clearance index (p < 0.01) and postnatally an increase in the difference between resistance at end expiration (ReE) and inspiration (p = 0.05) and decrease in tidal volume (p = 0.06). Exposure to antenatal VOC was associated with an increase in functional residual capacity (p = 0.04) and a decrease in time of expiration over total breath time (tE /tTOT ) (p = 0.03) and postnatally an increase in respiratory rate (p = 0.05). High ETS exposure postnatally was associated with an increase in ReE (p = 0.03).

CONCLUSION

Antenatal and postnatal IAP and ETS exposures were associated with impairment in lung function at 3 years. Strengthened efforts to reduce IAP and ETS exposure are needed.

Position statement for adult and paediatric spirometry in South Africa: 2022 update

Spirometry is required as part of the comprehensive evaluation of both adult and paediatric individuals with suspected or confirmed respiratory diseases and occupational assessments. It is used in the categorisation of impairment, grading of severity, assessment of potential progression and response to interventions. Guidelines for spirometry in South Africa are required to improve the quality, standardisation and usefulness in local respiratory practice. The broad principles of spirometry have remained largely unchanged from previous versions of the South African Spirometry Guidelines; however, minor adjustments have been incorporated from more comprehensive international guidelines, including adoption of the Global Lung Function Initiative 2012 (GLI 2012) spirometry reference equations for the South African population. All equipment should have proof of validation regarding resolution and consistency of the system. Daily calibration must be performed, and equipment quality control processes adhered to. It is important to have standard operating procedures to ensure consistency and quality and, additionally, strict infection control as highlighted during the COVID-19 pandemic. Adequate spirometry relies on a competent, trained operator, accurate equipment, standardised operating procedures, quality control and patient co-operation. All manoeuvres must be performed strictly according to guidelines, and strict quality assurance methods should be in place, including acceptability criteria (for any given effort) and repeatability (between efforts). Results must be categorised and graded according to current guidelines, taking into consideration the indication for the test.

Post-tuberculosis lung health: perspectives from the First International Symposium

ALTHOUGH CURABLE, TB frequently leaves the individual with chronic physical and psycho-social impairment, but these consequences have been largely neglected. The 1^st International Post-Tuberculosis Symposium (Stellenbosch, South Africa) was held to discuss priorities and gaps in addressing this issue. A barrier to progress has been the varied terminology and nomenclature, so the Delphi process was used to achieve consensus on definitions. Lack of sufficient evidence hampered definitive recommendations in most domains, including prevention and treatment of post-TB lung disease (PTLD), but the discussions clarified the research needed. A consensus was reached on a toolkit for future PTLD measurement and on PTLD patterns to be considered. The importance of extra-pulmonary consequences and progressive impairment throughout the life-course was identified, including TB recurrence and increased mortality. Patient advocates emphasised the need to address the psychological and social impacts post TB and called for clinical guidance. More generally, there is an urgent need for increased awareness and research into post-TB complications.

Maternal HIV and Paediatric Lung Health

With improved prevention of mother to child transmission of HIV, paediatric HIV disease is less common. However, the number of HIV exposed but uninfected infants is growing. Exposure to maternal HIV impacts infant respiratory health through an increase in known risk factors such as increased preterm birth and low birth weight, suboptimal breastfeeding, increased psychosocial stressors and increased exposure to infective pathogens. Exposure to the HIV virus and altered maternal immune environment result in immunologic changes in the infant that may contribute to respiratory disease risk. HIV exposed infants are at increased risk for severe pneumonia with poorer outcomes compared to unexposed infants. Maternal ART and optimal nutrition, including breastfeeding in high infective disease burden settings, reduce morbidity and mortality in HIV exposed infants and should be prioritized. The impact of exposure to maternal HIV on normal lung growth and risk for chronic respiratory disease is unknown and warrants further investigation.

Isoniazid preventive therapy in HIV-infected children on antiretroviral therapy: a pilot study

SETTING

Tuberculosis (TB) is a common cause of mortality and morbidity in children infected with the human immunodeficiency virus (HIV). Data on isoniazid preventive therapy (IPT) efficacy in HIV-infected children receiving antiretroviral therapy (ART) are inconclusive.

OBJECTIVE

To assess the efficacy, tolerability and safety of isoniazid (INH) in HIV-infected children on ART.

DESIGN

A pilot randomised controlled study of INH was undertaken in HIV-infected children on ART. The primary outcome measure was TB disease or death.

RESULTS

A total of 167 children were randomised to receive INH (n = 85) or placebo (n = 82), and followed for a median of 34 months (interquartile range [IQR] 24-52). The median age was 35 months (IQR 15-65). There was one death in a child on INH and none in the placebo group. Eleven (6.6%) cases of TB occurred, 4 (5%) in the INH and 7 (9%) in the placebo group. Among the TB cases, 5 were culture confirmed-2 in the INH group and 3 in the placebo group, all susceptible to INH. Severe adverse events occurred rarely (n = 6; 2%).

CONCLUSION

IPT is safe and well tolerated in HIV-infected children on concomitant ART. This study supports the need for a larger study to assess efficacy in HIV-infected children living in TB-endemic areas.

Cameron lesions in patients with hiatal hernias: prevalence, presentation, and treatment outcome

Cameron lesions, as defined by erosions and ulcerations at the diaphragmatic hiatus, are found in the setting of gastrointestinal (GI) bleeding in patients with a hiatus hernia (HH). The study aim was to determine the epidemiology and clinical manifestations of Cameron lesions. We performed a retrospective cohort study evaluating consecutive patients undergoing upper endoscopy over a 2-year period. Endoscopy reports were systematically reviewed to determine the presence or absence of Cameron lesions and HH. Inpatient and outpatient records were reviewed to determine prevalence, risk factors, and outcome of medical treatment of Cameron lesions. Of 8260 upper endoscopic examinations, 1306 (20.2%) reported an HH. When categorized by size, 65.6% of HH were small (<3 cm), 23.0% moderate (3-4.9 cm), and 11.4% were large (≥5 cm). Of these, 43 patients (mean age 65.2 years, 49% female) had Cameron lesions, with a prevalence of 3.3% in the presence of HH. Prevalence was highest with large HH (12.8%). On univariate analysis, large HH, frequent non-steroidal anti-inflammatory drug (NSAID) use, GI bleeding (both occult and overt), and nadir hemoglobin level were significantly greater with Cameron lesions compared with HH without Cameron lesions (P ≤ 0.03). Large HH size and NSAID use were identified as independent risk factors for Cameron lesions on multivariate logistic regression analysis. Cameron lesions are more prevalent in the setting of large HH and NSAID use, can be associated with GI bleeding, and can respond to medical management.

Lung function in African infants: a pilot study

BACKGROUND

The burden of childhood respiratory illness is large in low and middle income countries (LMICs). Infant lung function (ILF) testing may provide useful information about lung growth and susceptibility to respiratory disease. However, ILF has not been widely available in LMICs settings where the greatest burden of childhood respiratory disease occurs.

AIM

To implement and evaluate a pilot study of ILF testing in a semi-rural setting in South Africa.

METHOD

Infant lung function testing was established at a community hospital in South Africa. All measures were done in unsedated infants during sleep. Measurements, made with the infant quietly breathing through a face mask and bacterial filter, included tidal breathing (TBFVL), exhaled nitric oxide (eNO), and sulphur hexafluoride multiple breath washout (MBW) measures using an ultrasonic flow meter and chemoluminescent NO analyzer.

RESULTS

Twenty infants, mean age of 7.7 (SD 2.9) weeks were tested; 8 (40%) were Black African and 12 (60%) were mixed race. Five (25%) infants were preterm. There were 19 (95%) successful TBFVL and NO tests and 18 (90%) successful MBW tests. The mean tidal volume was 30.5 ml (SD 5.9), respiratory rate 50.2 breaths per minute (SD 8.7), and eNO 10.4 ppb (SD 7.3). The mean MBW measures were: functional residual capacity 71 ml (SD 13) and the lung clearance index 7.6 (SD 0.5). The intra-subject coefficient of variations (CV) of lung function measures were similar to published normative data for Caucasian European infants.

CONCLUSION

In this study we demonstrate that unsedated infant lung function measures of tidal breathing, MBW, and eNO are feasible in a semi-rural African setting with rates comparable to those reported from high income countries.

SELEX selection of high-affinity oligonucleotides for bacteriophage Ff gene 5 protein

The Ff gene 5 protein (g5p) is a cooperative ssDNA-binding protein. SELEX was used to identify DNA sequences favorable for g5p binding at physiological ionic strength (200 mM NaCl) and 37 degrees C. Sequences were selected from a library of 58-mers that contained a central variable segment of 26 nucleotides. DNA sequences selected after eight rounds of SELEX were mostly G-rich, with multiple copies of CPuGGPy, TPuGGGPy, and/or PyPuPuGGGPy motifs. This was unexpected, since g5p has higher binding affinities for polypyrimidine than for polypurine sequences. The most recurrent G-rich sequence, named I-3, was found to have g5p-binding properties that were correlated with a structural transition. At 10 mM NaCl, I-3 existed in a single-stranded form that was saturated by g5p in an all-or-none fashion. At 200 mM NaCl, I-3 existed in a structured form that showed CD spectral features of G-quadruplexes. The g5p binding affinity for this structured form of I-3 was >100-fold higher than for the single-stranded form. Moreover, the structured I-3 was saturated by g5p in two steps, the first of which was the formation of an apparent initiation complex consisting of one I-3 strand and about three g5p dimers. Nuclease S1 footprinting and other experiments showed that g5p molecules in the initiation complex at 200 mM NaCl were bound directly to the G-rich variable segment and that the structure of I-3 was retained after saturation by g5p. Thus, G-rich motifs may form structures favorable for initiation of g5p binding and also provide the actual g5p-binding sites.

Ff gene 5 protein has a high binding affinity for single-stranded phosphorothioate DNA

The gene 5 protein (g5p) of Ff bacteriophages is a well-studied model ssDNA-binding protein that binds cooperatively to the Ff ssDNA genome and single-stranded polynucleotides. Its affinity, K omega (the intrinsic binding constant times a cooperativity factor), can differ by several orders of magnitude for ssDNAs of different nearest-neighbor base compositions [Mou, T. C., Gray, C. W., and Gray, D. M. (1999) Biophys. J. 76, 1537-1551]. We found that the DNA backbone can also dramatically affect the binding affinity. The K omega for binding phosphorothioate-modified S-d(A)(36) was >300-fold higher than for binding unmodified P-d(A)(36) at 0.2 M NaCl. CD titrations showed that g5p bound phosphorothioate-modified oligomers with the same stoichiometry as unmodified oligomers. The CD spectrum of S-d(A)(36) underwent the same qualitative change upon protein binding as did the spectrum of unmodified DNA, and the phosphorothioate-modified DNA appeared to bind in the normal g5p binding site. Oligomers of d(A)(36) with different proportions of phosphorothioate nucleotides had binding affinities and CD perturbations intermediate to those of the fully modified and unmodified sequences. The influence of phosphorothioation on binding affinity was nearly proportional to the extent of the modification, with a small nearest-neighbor dependence. These and other results using d(ACC)(12) oligomers and mutant proteins indicated that the increased binding affinity of g5p for phosphorothioate DNA was not a polyelectrolyte effect and probably was not an effect due to the altered nucleic acid structure, but was more likely a general effect of the properties of the sulfur in the context of the phosphorothioate group.

Evidence from CD spectra and melting temperatures for stable Hoogsteen-paired oligomer duplexes derived from DNA and hybrid triplexes

The pyr*pur.pyr type of nucleic acid triplex has a purine strand that is Hoogsteen-paired with a parallel pyrimidine strand (pyr*pur pair) and that is Watson-Crick-paired with an antiparallel pyrimidine strand (pur.pyr pair). In most cases, the Watson-Crick pair is more stable than the Hoogsteen pair, although stable formation of DNA Hoogsteen-paired duplexes has been reported. Using oligomer triplexes of repeating d(AG)12 and d(CT)12 or r(CU)12 sequences that were 24 nt long, we found that hybrid RNA*DNA as well as DNA*DNA Hoogsteen-paired strands of triplexes can be more stable than the Watson-Crick-paired strands at low pH. The structures and relative stabilities of these duplexes and triplexes were evaluated by circular dichroism (CD) spectroscopy and UV absorption melting studies of triplexes as a function of pH. The CD contributions of Hoogsteen-paired RNA*DNA and DNA*DNA duplexes were found to dominate the CD spectra of the corresponding pyr*pur.pyr triplexes.

The binding affinity of Ff gene 5 protein depends on the nearest-neighbor composition of the ssDNA substrate

The Ff gene 5 protein (g5p) is considered to be a nonspecific single-stranded DNA binding protein, because it binds cooperatively to and saturates the Ff bacteriophage single-stranded DNA genome and other single-stranded polynucleotides. However, the binding affinity Komega (the intrinsic binding constant times a cooperativity factor) differs by over an order of magnitude for binding to single-stranded polynucleotides such as poly[d(A)] and poly[d(C)]. A polynucleotide that is more stacked, like poly[d(A)], binds more weakly than one that is less stacked, like poly[d(C)]. To test the hypothesis that DNA base stacking, a nearest-neighbor property, is involved in the binding affinity of the Ff g5p for different DNA sequences, Komega values were determined as a function of NaCl concentration for binding to six synthetic sequences 48 nucleotides in length: dA48, dC48, d(AAC)16, d(ACC)16, d(AACC)12, and d(AAACC)9A3. The binding affinities of the protein for these sequences were indeed found to be related to the nearest-neighbor compositions of the sequences, rather than to simple base compositions. That is, the g5p binding site, which is spanned by four nucleotides, discriminates among these sequences on the basis of the relative numbers of nearest neighbors (AA, CC, and AC plus CA) in the sequence. The results support the hypothesis that the extent of base stacking/unstacking of the free, nonbound ssDNA plays an important role in the binding affinity of the Ff gene 5 protein.

Structural properties of Friedreich's ataxia d(GAA) repeats

The expansion of trinucleotide repeat sequences is the underlying cause of a growing number of inherited human disorders. To provide correlations between DNA structure and mechanisms of trinucleotide repeat expansion, we investigated potential secondary structures formed from the complementary strands of d(GAA.TTC)n, a sequence whose expansion is associated with Friedreich's ataxia. In 50 mM NaCl, pH 7.5, d(GAA)15 exhibited a cooperative and reversible decrease in large circular dichroism bands at 248 and 272-274 nm over the temperature range of 5-50 degrees C, providing evidence for a base-paired structure at reduced temperatures. Ultraviolet absorbance melting profiles indicated that the melting temperature (Tm) of d(GAA)15 was 40 degrees C. At 5 degrees C, the central portion of d(GAA)15 was hypersensitive to single-strand-specific P1 nuclease degradation and diethyl pyrocarbonate modification, providing evidence for a hairpin conformation. At temperatures between 25 and 35 degrees C in 50 mM NaCl, the triplet repeat region of d(GAA)15 was uniformly resistant to degradation by P1 nuclease, including the central portion of the sequence. Our results indicate that the structure of d(GAA)15 is a hairpin at 5 degrees C, unknown but partially base-paired at 37 degrees C, and an approximately random coil above 65 degrees C.

Decisions and justifications by community mental health providers about hypothetical ethical dilemmas

OBJECTIVE

Community-based treatment of persons with serious mental illness requires providers to become involved in clients' personal lives to a greater degree than does hospital-based treatment. The study examined attendant ethical dilemmas, especially for staff who lack professional training or work in rural communities.

METHODS

A total of 95 staff members from five community mental health centers read 14 vignettes describing ambiguous ethical dilemmas involving professional role boundaries or client confidentiality. Twenty-seven staff members were from rural agencies, and 68 from urban-suburban agencies; 60 were direct care staff, and 35 were supervisory. Participants were asked to make and justify a more conservative or a less conservative decision in response to each dilemma.

RESULTS

Years of experience as a mental health provider and previous ethics training correlated positively with staff having experienced more situations similar to those in the vignettes; however, these variables were not related to the decision made or the type of ethical justification for it. When the analysis controlled for experience and previous ethics training, staff made fewer conservative decisions in boundary dilemmas than in confidentiality dilemmas. Compared with nonrural providers, rural providers had experienced more boundary dilemmas and made fewer conservative decisions in response to them.

CONCLUSIONS

Boundary problems occur frequently in community-based services, especially in rural settings, and may or may not be handled conservatively. With the expansion of case management and other in vivo services, better understanding of ethical risks and informal practices will help improve services and provide appropriate training and supervision of staff.

Circular dichroism and electron microscopy of a core Y61F mutant of the F1 gene 5 single-stranded DNA-binding protein and theoretical analysis of CD spectra of four Tyr --> Phe substitutions

A core Y61F mutant of the gene 5 single-stranded DNA-binding protein (g5p) of f1 bacterial virus aggregated when expressed from a plasmid, but, after refolding in vitro, it behaved much like wild-type and may be a stability or folding mutant. Circular dichroism (CD) titrations showed the same cooperative polynucleotide binding modes for Y61F and wild-type g5p. There are n = 4 and n congruent with 2.5 modes for binding to poly[d(A)] at low ionic strengths, but n = 4, n = 3, and n congruent with 2-2.5 modes for binding to fd single-stranded viral DNA (fd ssDNA), where n is the number of nucleotides occluded by each bound g5p monomer in a given mode. Y61F g5p has slightly reduced affinity in the n = 4 mode. Electron microscopy showed that Y61F g5p forms left-handed nucleoprotein superhelices indistinguishable from wild-type. Progression from binding to fd ssDNA in the n = 4 to n = 3 to n congruent with 2-2.5 mode is accompanied by an increase in the number of helical turns, an increase from (7.7 +/- 0.3) to (9.5 +/- 0.3) to ( approximately 10-13) g5p dimers per turn, and a decrease in the number of DNA nucleotides per turn. From CD spectra for four of five possible Y --> F g5p mutants, we infer that the fifth tyrosine, Tyr 56, contributes strongly to the CD. Retention of a strong 229 nm CD band in all mutants indicates that all retain elements of the native structure. Spectra of Y26F, Y34F, and Y61F g5p imply limited mobility of the replacement Phe. Comparison of measured with calculated CD spectra also suggests limited mobility for Tyr 26 and Tyr 34 in g5p in solution, and provides new information that the g5p structure in solution may be dominated by Tyr 41 rotamers differing from that stabilized in the crystal.

Hybrid oligomer duplexes formed with phosphorothioate DNAs: CD spectra and melting temperatures of S-DNA.RNA hybrids are sequence-dependent but consistent with similar heteronomous conformations

Knowledge of the relative stabilities of S-DNA.RNA hybrids of different sequences is important for choosing RNA targets for hybridization with antisense phosphorothioate oligodeoxyribonucleotides (S-DNAs). It is also important to know how hybrid secondary structure varies with sequence, since different structures could influence thermal stability and the activity of RNase H. Our approach has been to study relatively simple sequences consisting of repeating di-, tri-, and tetranucleotides, which allow the maximum resolution of nearest-neighbor effects. Circular dichroism (CD) spectra and melting temperatures were acquired for 16 hybrid sequences that could be formed by mixing S-DNA and RNA oligomers of 24 nucleotides in length. CD spectra of S-DNA.RNA hybrids were sequence-dependent and were similar to those of analogous unmodified hybrids. From singular value decomposition, the major CD spectral component was like that of the A-conformation. Three nearest-neighbor relationships among the hybrid CD spectra were in as good agreement as are such relationships among spectra of duplex RNAs. Tm values ranged from 44.1 degrees C for S-d(ACT)8. r(AGU)8 to 66.6 degrees C for S-d(CCT)8.r(AGG)8 (in 0.15 M K+, phosphate buffer, pH 7). The S-DNA.RNA hybrids had a sequence-dependence of melting temperatures that was approximately the same as that calculated using published data for normal DNA.RNA hybrids [Sugimoto, N., Nakano, S., Katoh, M., Matsumura, A., Nakamuta, H., Ohmichi, T.,Yoneyama, M., & Sasaki, M. (1995) Biochemistry 34, 11211-11216]. In general, sequence-dependent CD spectra and Tm values of S-DNA.RNA hybrids appear to reflect the unique nearest-neighbor interactions of adjacent base pairs, where the S-DNA and RNA strands are in different, but relatively uniform, conformations.

Derivation of nearest-neighbor properties from data on nucleic acid oligomers. I. Simple sets of independent sequences and the influence of absent nearest neighbors

The constraints on combinations of nearest neighbors in nucleic acid sequences and the numbers of independent sequences needed to describe nearest-neighbor properties of oligomers and polymers are derived and summarized. It has been pointed out in previous work [D. M. Gray and I. Tinoco, Jr. (1970) Biopolymers, Vol. 9, pp. 223-244; R. F. Goldstein and A. S. Benight (1992) Biopolymers, Vol. 32, pp. 1679-1693] that these constraints restrict the information available from measurements of properties of sequence combinations. The emphasis in this paper is on the properties of oligomer sequences that vary in length, where each nucleotide or base pair at the end of the sequence makes a significant contribution to the measured property by interacting with its boundary of fixed sequence or solvent. In such cases it is not be possible to determine values of properties of individual nearest neighbors, except for the like neighbors [e.g., d(A-A), d(G-G), d(T-T), and d(C-C) nucleotide neighbors in single-stranded DNA or d(A-A)/d(T-T) and d(G-G)/d(C-C) base pair neighbors in double-stranded DNA], solely from measurements of properties of different sequences. Even values for properties of the like neighbors cannot be determined from such oligomeric sequences if the sequences are all of the same length. Nearest-neighbor properties of oligomer sequences that vary in length can be summarized in terms of the values for independent sets of sequences that are nearest neighbors and monomers all with boundaries of the fixed sequence or solvent. Straightforward combinations of the values for the independent sequences will give the values of the property for any dependent sequence, without explicit knowledge of the individual nearest-neighbor values. These considerations have important consequences for the derivation of widely used thermodynamic parameters, as discussed in the following paper.

Derivation of nearest-neighbor properties from data on nucleic acid oligomers. II. Thermodynamic parameters of DNA.RNA hybrids and DNA duplexes

Using nearest-neighbor models consisting of independent short sequence combinations of nearest neighbors (ISS models), values of thermodynamic parameters for sets of independent sequences are derived from published oligomer data for DNA.RNA hybrids [N. Sugimoto, S. Nakano, M. Katoh, A. Matsumura, H. Nakamuta, T. Ohmichi, M. Yoneyama, and M. Sasaki (1995) Biochemistry, Vol. 34, pp. 11211-11216] and dsDNA duplexes [J. SantaLucia, Jr., H. T. Allawi, and P. A. Seneviratne (1996) Biochemistry, Vol. 35, pp. 3555-3562]. The results are compared with those from models that assign values of thermodynamic parameters to individual nearest neighbors (INN models). Differences in the use of ISS and INN models are also illustrated in an appendix, which shows examples of analyses for values of a fictitious nearest-neighbor property. INN models that include an initiation parameter contain an implicit assumption that combinations of end neighbors have the same value of a property. It is found that combinations of end neighbors (e.g., base pairs neighboring solvent) in oligomers can have significant and different apparent values of thermodynamic properties, so that the assumption inherent in INN models is not always correct. Even though ISS models do not allow the assignment of values to individual nearest neighbors, except for the like neighbors [such as d(AA)/r(UU), etc., for hybrids and d(AA)/d(TT) and d(GG)/d(CC) for DNA duplexes], they do provide physically meaningful values for the like neighbors, for sequence combinations, and for specified combinations of end neighbors.

CD, absorption and thermodynamic analysis of repeating dinucleotide DNA, RNA and hybrid duplexes [d/r(AC)]12.[d/r(GT/U)]12 and the influence of phosphorothioate substitution

Circular dichroism (CD) spectra and melting temperature (Tm) data for five duplexes containing phosphorothioate linkages were compared with data for four unmodified duplexes to assess the effect of phosphorothioate modification on the structure and stability of DNA. DNA and DNA.RNA duplexes. Nine duplexes were formed by mixing oligomers 24 nt long in 0.15 M K+(phosphate buffer), pH 7.0. Unmodified DNA.DNA and RNA.RNA duplexes were used as reference B-form and A-form structures. The CD spectra of the modified hybrids S-d(AC)12.r(GU)12 and r(AC)12.S-d(GT)12 differed from each other but were essentially the same as the spectra of the respective unmodified hybrids. They were more A-form than B-form in character. CD spectra of duplexes S-d(AC)12.d(GT)12 and d(AC)12.S-d(GT)12 were similar to that of d(AC)12.d(GT)12, except for a reduced long wavelength CD band. Sulfur modifications on both strands of the DNA duplex caused a pronounced effect on its CD spectrum. The order of thermal stability was: RNA.RNA > DNA.DNA > DNA.RNA > S-DNA.DNA > S-DNA. RNA > S-DNA.S-DNA. Phosphorothioation of one strand decreased the melting temperature by 7.8+/-0.6 degrees C, regardless of whether the substitution was in a hybrid or DNA duplex. Thermodynamic parameters were obtained from a multistate analysis of the thermal melting profiles. Interestingly, the destabilizing effect of the phosphorothioate substitution appears to arise from a difference in the entropy upon forming the DNA.DNA duplexes, while the destabilizing effect in the DNA.RNA hybrids appears to come from a difference in enthalpy.

Tyrosine mutant helps define overlapping CD bands from fd gene 5 protein.nucleic acid complexes

We used a mutant gene 5 protein (g5p) to assign and interpret overlapping CD bands of protein nucleic acid complexes. The analysis of overlapping protein and nucleic acid CD bands is a common challenge for CD spectroscopists, since both components of the complex may change upon binding. We have now been able to more confidently resolve the bands of nucleic acids complexed with the fd gene 5 protein by exploiting a mutant gene 5 protein that has an insignificant change in tyrosine optical activity at 229 nm upon binding to nucleic acids. We have studied the interactions of the mutant Y34F g5p (Tyr-34 substituted with phenylalanine) with poly[r(A)], poly[d(A)], and fd single-stranded DNA (ssDNA). Our results showed the following: (1) The 205-300 nm spectrum of poly[r(A)] saturated with the Y34F mutant (P/N = 0.25) was essentially the sum of the spectra of poly[r(A)] at a high temperature plus the spectrum of the free protein, except for a minor negative band at 257 nm. (2) The spectra of poly[d(A)] and fd ssDNA saturated with the mutant protein at a P/N = 0.25, minus the spectra of the free nucleic acids at a high temperature, also essentially equaled the spectrum of the free protein in the 205-245 nm region. (3) While the overall secondary structure of the Y34F protein did not change upon binding to any of these nucleic acids, there could be changes in the environment of individual aromatic residues. (4) Nucleic acids complexed with the g5p are unstacked (as if heated) and (in the cases of the DNAs) perturbed as if part of a dehydrated double-stranded DNA. (5) Difference spectra revealed regions of the spectrum specific for the particular nucleic acid, the protein, and whether g5p was bound to DNA or RNA.

At physiological pH, d(CCG)15 forms a hairpin containing protonated cytosines and a distorted helix

To investigate potential structures of d(CGG/CCG)n that might relate to their biological function and association with triplet repeat expansion diseases (TREDs), the structure of a single-stranded (ss) oligonucleotide containing d(CCG)15 [ss(CCG)15] was examined by studies of the pH and temperature dependence of electrophoretic mobility, UV absorbance, circular dichroism, chemical modification, and P1 nuclease digestion. ss(CCG)15 had an unusually high pKa (7.7 +/- 0.2). At pH 8.5, ss(CCG)15 formed a relatively unstable (Tm = 30 degrees C in 1 mM Na+) hairpin containing CpG base-pair steps. At pH 7.5, the hairpin contained protonated cytosines but no detectable C x +C base pairs, increased thermal stability (Tm = 37 degrees C), increased stacking of the CpG base-pair steps, and a single cytosine that was flipped away from the central portion of the helix. Examination of ss(CCG)18 and ss(CCG)20, which were designed to adopt hairpins containing alternative GpC base-pair steps, revealed hairpins containing CpG base-pair steps, pKas of approximately 8.2 and approximately 8.4, respectively, and distorted helices. The results suggest that DNA sequences containing (CCG)(n > or = 15) adopt hairpin conformations that contain CpG rather than GpC base-pair steps; the mismatched cytosines are protonated at physiological pH but are not H-bonded. We propose that protonation arises from the stacking of two cytosines in the minor groove of a distorted helix.

Circular dichroism spectroscopy of three tyrosine-to-phenylalanine substitutions of fd gene 5 protein

Circular dichroism spectroscopy was used to study mutants of phage fd gene 5 protein (Y26F, Y34F, and Y41F) in which three of the five tyrosines, Tyr-26, Tyr-34, and Tyr-41, were individually substituted with phenylalanine. The tyrosine 229 nm CD bands of the wild type, Y26F, and Y41F gene 5 proteins decreased in magnitude during complex formation with either fd ssDNA or poly[d(A)]. However, the Y34F gene 5 protein showed no decrease in the 229 nm band during titrations of these nucleic acids. This suggested that Tyr-34 of the wild type gene 5 protein dominated the 229 nm CD changes upon binding to single-stranded DNA. Titrations of poly[d(A)] or fd ssDNA with wild type, Y26F, Y34F, or Y41F gene 5 proteins resulted in perturbations of the nucleic acid near-UV CD bands, specific for the particular nucleic acid, but similar for all four proteins (in 2 mM sodium phosphate buffer, pH 7.0). For both nucleic acids, the addition of protein beyond a certain [protein monomer]/[nucleotide] ratio (0.25 for poly[d(A)] or 0.33 for fd ssDNA) resulted in a partial reversal of the CD change of the nucleic acid. These data are interpreted to mean that, in addition to the two well-known n = 4 and n = 3 stoichiometric modes of binding, there is a third mode of binding in which the nucleic acid is in limited contact with the protein. As shown by salt dissociation studies of complexes with poly[d(A)], the binding affinities, K omega, of the proteins were in the order: wild type > Y26F >> Y34F > or = Y41F (for the n = 4 binding mode in 0.1-0.2 M NaCl). Our data indicate that Tyr-34 plays a more important role in forming a complex with ssDNA than is apparent in current models of the g5p.ssDNA complex. We suggest that the hydroxyl moieties of Tyr-34 and Tyr-41 are both somehow involved in stabilizing the interface of bound protein dimers.

Structures of fd gene 5 protein.nucleic acid complexes: a combined solution scattering and electron microscopy study

Small-angle scattering and electron microscopy studies of fd gene 5 protein (g5p) and reconstituted g5p.nucleic acid complexes have been used to test models for the complexes and evaluate their uniqueness. In addition, we have obtained new information on the dependence of nucleotide type and protein/nucleotide (P/N) ratio on the structure of the complexes. Reconstituted complexes were made with single-stranded fd viral DNA (fd ssDNA), poly[d(A)] and poly[r(A)]. All complexes form similar left-handed, flexible superhelices having approximately the same diameter, but the pitch differs among these complexes. The g5p protein is a dimer in solution and the dimers associate to form a superhelical framework to which the polynucleotide is attached. The combined X-ray and neutron scattering data confirm the nucleic acid is inside the protein superhelix. A Monte Carlo integration modeling procedure applied to the scattering data was used to systematically test large numbers of possible models for each complex, and previously proposed models based on parameters obtained from electron microscopy were found to be essentially correct and unique. The data on the complexes with different P/N ratios showed that mass per unit length values decreased while the rise per dimer and pitch of the superhelix increased for g5p.fd-ssDNA complexes with decreasing P/N ratios.

Role of Tyr-22 in the binding of Pf3 ssDNA binding protein to nucleic acids

A Tyr-22-->Phe-22 (Y22F) mutant of the single-strand DNA binding protein (ssDBP) of the filamentous phage Pf3 was obtained by site-directed mutagenesis. An alignment of protein sequences indicates that Tyr-22 of the Pf3 ssDBP corresponds to Tyr-26 of the fd g5p, a tyrosine within the DNA-binding loop. The mutant Y22F Pf3 protein had a CD spectrum very similar to that of native, wild-type Pf3 ssDBP and could bind to both DNA and RNA polymers. In CD titrations of poly[r(A)], poly[r(C)], and Pf3 ssDNA with the Y22F mutant, the saturation endpoints remained the same as for titrations performed with wild-type Pf3 ssDBP, indicating that the mutant protein retained the same n = 2 mode of binding as the wild-type protein. However, a second stoichiometric mode of binding at a ratio of one protein monomer to about four nucleotides (n = 4) was observed for titrations of these nucleic acids with the Y22F mutant protein. Both proteins showed only an n = 2 mode of binding to poly[d(A)], poly[d(C)], and poly[d(T)] and only an n = 3 mode of binding to poly[r(U)]. Distinctly different CD spectral changes of the nucleic acid were observed in titrations of poly[d(A)] with the Y22F mutant and the wild-type protein. Therefore, the mutant and wild-type ssDBP interact differently with some nucleic acids, depending on the base and sugar composition, providing evidence that Tyr-22 is indeed in the DNA-binding loop and may be important in the sequence discrimination of the binding of the Pf3 ssDBP.

Absorption and circular dichroism spectroscopy of nucleic acid duplexes and triplexes

Absorption and CD measurements of complementary oligomers and mixtures are described. The concentrations of oligomers may be estimated from absorption measurements and nearest-neighbor calculations of molar extinction coefficients. Interactions between complementary strands in mixtures can lead to obvious differences between measured CD spectra and the average of the spectra of the individual strands. CD spectra also allow an assessment of whether the individual strands are in self-complexes, which could compete with duplex or triplex formation. Isodichroic and isoabsorptive points provide important indicators of the stoichiometry of the strands in base-paired complexes. CD spectra provide an important means of characterizing differences in the conformations of DNA, RNA, and hybrid duplexes or triplexes having analogous sequences.

Evidence from CD spectra that d(purine).r(pyrimidine) and r(purine).d(pyrimidine) hybrids are in different structural classes

CD spectra and difference CD spectra of four d(oligopurine).r(oligopyrimidine) and four r(oligopurine).d(oligopyrimidine) hybrid duplexes containing mixed A.T(U) and G.C base pairs were compared with the spectra of four DNA.DNA and four RNA.RNA oligomer duplexes of similar repeating sequences. The 16 duplexes were formed by mixing oligomers that were 24 nucleotides long. The buffer was 0.05 M Na+ (phosphate), pH 7.0. DNA.DNA and RNA.RNA oligomer duplexes were used as reference B-form and A-form structures. We found that the CD spectra of d(purine).r(pyrimidine) and r(purine).d(pyrimidine) hybrid duplexes were different from the CD spectra of either DNA.DNA or RNA.RNA duplexes. The data suggested that these hybrids have intermediate structures between A-form RNA and B-form DNA structures. The CD spectra of d(purine).r(pyrimidine) and r(purine).d(pyrimidine) hybrid duplexes were different from each other, but the hybrids in each class had consistent CD spectra as indicated by nearest-neighbor comparisons. Thus, it appeared that the two types of hybrids belonged to different structural classes. The negative 210 nm band found in difference CD spectra was correlated with the presence of an r(purine) strand in the hybrid duplexes. The melting temperatures (Tm values) of these hybrids were compared with the Tm values of the DNA.DNA and RNA.RNA duplexes. The order of the thermal stability was: RNA.RNA duplex > r(purine).d(pyrimidine) hybrid > DNA.DNA duplex > d(purine).r(pyrimidine) hybrid, when comparing analogous sequences.

Characterization of the Pf3 single-strand DNA binding protein by circular dichroism spectroscopy

We have used circular dichroism (CD) spectroscopy and gel electrophoresis to characterize the single-strand DNA binding protein (ssDBP) of the bacteriophage Pf3 and its complexes with Pf3 DNA and various DNA and RNA homopolymers. The secondary structure of Pf3 ssDBP had < 1% alpha-helix and therefore was probably a beta-sheet structure like the fd gene 5 protein (g5p). From CD titrations, the binding stoichiometry of Pf3 ssDBP was two nucleotides per protein monomer (n = 2) for complexes formed with all of the nucleic acids except poly[r(U)], for which n = 3 (in a buffer of 10 mM Tris-HCl and 70 mM NaCl, pH 8.2). Evidence of an additional binding mode of n = 4 for complexes formed with Pf3 DNA was found by gel electrophoresis experiments. Pf3 ssDBP showed a marked sequence dependence in binding affinities similar to that known for the fd g5p.

Evidence for a salt-induced conformational transition in UV-irradiated superhelical PM2 DNA

Upon treatment with UV irradiation, native (supercoiled) PM2 DNA undergoes an increase in electrophoretic mobility relative to the nicked circular form in the presence of 1 M NaCl or 5 mM CaCl2 or MgCl2. This effect is dependent upon supercoiling in that the relative electrophoretic mobility decreases with decreasing superhelical density of the molecule. These findings indicate that supercoil-dependent aspects of the secondary and tertiary structure of nonirradiated PM2 DNA can be altered by a combination of UV irradiation and any of the ionic environments above. We show that the alteration is not the result of a conversion of Z-DNA segments to a right-handed helix or to a renaturation of denatured regions in PM2 DNA. Circular dichroism studies do not support a simple model in which A-form DNA induced by superhelical stress is converted to B-form DNA by UV-induced photodamage and salt. We, therefore, present three alternative explanations for these observations two of which invoke conformational transitions in secondary structure and a third which requires a change in tertiary structure due to an increase in flexibility.

CD spectral comparisons of the acid-induced structures of poly[d(A)], poly[r(A)], poly[d(C)], and poly[r(C)]

CD spectra were used to compare the acid-induced structural transitions of poly[d(A)] and poly[d(C)] with those of poly[r(A)] and poly[r(C)], respectively. The types of base pairing were probably the same in the acid self-complexes of both A-containing polymers and in the acid self-complexes of both C-containing polymers. Similar base pairings were indicated by similarities in the difference CD spectra showing the changes during the first major acid-induced transitions of the polymers. Information from the CD spectra and pKa values of the transitions suggested that the transitions for the RNA polymers involved similar structural changes. The two DNA polymers were markedly different. Single-stranded poly[d(A)] was in the most stacked structure and had the lowest pKa for forming an acid self-complex. Single-stranded poly[d(C)] was in the least stacked structure and had the highest pKa for forming a protonated duplex.

Flow linear dichroism spectra of four filamentous bacteriophages: DNA and coat protein contributions

In this study, we have separated the contributions of DNA and protein to the absorption and linear dichroism (LD) of each of four phages: fd, IKe, Pf1, and Pf3. We have found that the DNA packaged in each of the phages is hypochromic relative to the purified single-stranded DNA, suggesting that bases are stacked in all of the phages. We have oriented the phages by flow and for the first time report the intrinsic LD from 320 to 190 nm for each of these phages. From the intrinsic LD of the phages and the isotropic absorption of the individual components, we have determined the reduced dichroism of the DNA within the phages and, subsequently, the maximum angle of inclination of the DNA bases (from the helix axis) for the packaged DNA. The maximum angles were 63 degrees and 64 degrees for the DNAs of class I phages fd and IKe, respectively. The angles were significantly less, 51 degrees and 49 degrees, for the DNAs of the class II phages Pf1 and Pf3, respectively. Thus, the two classes of phage differ in the structures of their packaged DNA, the DNA bases of the class II phages being more parallel to the long axis of the phage than are the DNA bases of the class I phages.

Analysis of an RNA pseudoknot structure by CD spectroscopy

The RNA PK5 (GCGAUUUCUGACCGCUUUUUUGUCAG) forms a pseudoknotted structure at low temperatures and a hairpin containing an A.C opposition at higher temperatures (J. Mol. Biol. 214, 455-470 (1990)). CD and absorption spectra of PK5 were measured at several temperatures. A basis set of spectra were fit to the spectra of PK5 using a method that can provide estimates of the numbers of A.U, G.C, and G.U base pairs as well as the number of each of 11 nearest-neighbor base pairs in an RNA (Biopolymers 31, 373-384 (1991)). The fits were close, indicating that PK5 retained the A conformation in the pseudoknot structure and that the fitting technique is not hindered by pseudoknots or A.C oppositions. The results from the analysis were consistent with the pseudoknotted structure at low temperatures and with the hairpin structure at higher temperatures. We concluded that the method of spectral analysis should be useful for determining the secondary structures of other RNAs containing pseudoknots and A.C oppositions.

Vacuum UV CD spectra of homopolymer duplexes and triplexes containing A.T or A.U base pairs

Vacuum UV circular dichroism (CD) spectra were measured down to 174 nm for five homopolymers, five duplexes, and four triplexes containing adenine, uracil, and thymine. Near 190 nm, the CD bands of poly[d(A)] and poly[r(A)] were larger than the CD bands of the polypyrimidines, poly[d(T)], poly[d(U)], and poly[r(U)]. Little change was observed in the 190 nm region upon formation of the duplexes (poly[d(A).d(T)], poly[d(A).d(U)], poly[r(A).d(T)], poly[r(A).d(U)], and poly[r(A).r(U)]) or upon formation of two of the triplexes (poly[d(T).d(A).d(T)] and poly[d(U).d(A).d(U)]). This showed that the purine strand had the same or a similar structure in these duplexes and triplexes as when free in solution. Both A.U and A.T base pairing induced positive bands at 177 and 202 nm. For three triplexes containing poly[d(A)], the formation of a triplex from a duplex and a free pyrimidine strand induced a negative band centered between 210 and 215 nm. The induction of a band between 210 and 215 nm indicated that these triplexes had aspects of the A conformation.

An estimate of the nearest neighbor base-pair content of 5S RNA using CD and absorption spectroscopy

We analyzed the CD and uv absorption spectra of 5S RNA from Escherichia coli using the method developed in the preceding paper. The analysis of spectra of 5S RNA at 20 degrees C in 0.1M NaClO4, 2.5 mM Na+ (phosphate), pH 7.0, and 0.5 mM MgSO4 gave 7 +/- 3.6 A.U base pairs, 25 +/- 3.6 G.C base pairs, and 7.5 +/- 3.6 G.U base pairs. Estimates of nearest neighbor base pairs were more consistent with the Pieler-Erdmann and the Gewirth-Moore secondary structure models than with the Fox-Woese or the Burns-Luoma-Marshall models. We also examined the structure of 5S RNA as a function of temperature. The melting profile exhibited two transitions--one at about 35 degrees C and one above 50 degrees C. Our spectral data showed that helices I and II were stable during the first transition, and agreed with other data that helix III was the most likely helix to have melted. The results from this in-depth study of 5S RNA indicate that our method of analysis should be useful for studying the secondary structures of other small, unmodified RNAs.

A method for estimating the nearest neighbor base-pair content of RNAs using CD and absorption spectroscopy

CD and absorption spectra are sensitive to the secondary structure of RNAs. By fitting the spectra contained in our basis set to the CD and absorption spectra of an RNA of known sequence, we could determine the fractions of base pairs, the fractions of each of the nearest neighbor base pairs, and the fractions of the single-stranded nucleotides in that RNA. The basis set included 58 CD and 58 absorption spectra. The fitting was done with a guided selection routine. The estimated error was about 0.05 for predicting the fractions of the nearest neighbor base pairs, 0.06 for predicting the fractions of A.U, G.C, and G.U base pairs, and 0.04 for predicting the fractions of the single-stranded nucleotides.

CD evidence that the alternating purine-pyrimidine sequence poly[d(A-C).d(G-T)], but not poly[d(A-T).d(A-T)], undergoes an acid-induced transition to a modified secondary conformation

Circular dichroism and UV absorption data showed that poly[d(A-C).d(G-T)] (at 0.01M Na+ (phosphate), 20 degrees C) underwent two reversible conformational transitions upon lowering of the pH. The first transition was complete at about pH 3.9 and resulted in an acid form of the polymer that was most likely a modified, protonated duplex. The second transition occurred between pH 3.9 and 3.4 and consisted of the denaturation of this protonated duplex to the single strands. UV absorption and CD data also showed that the separated poly[d(A-C)] strand formed two acid-induced self-complexes with pKa values of 6.1 and 4.7 (at 0.01M Na+). However, neither one of these poly[d(A-C)] self-complexes was part of the acid-induced rearrangements of the duplex poly[d(A-C).d(G-T)]. Acid titration of the separated poly[d(G-T)] strand, under similar conditions, did not show the formation of any protonated poly[d(G-T)] self-complexes. In contrast to poly[d(A-C).d(G-T)], poly[d(A-T).d(A-T)] underwent only one acid-induced transition, which consisted of the denaturation of the duplex to the single strands, as the pH was lowered from 7 to 3.

The vacuum UV CD bands of repeating DNA sequences are dependent on sequence and conformation

CD spectra were obtained for eight synthetic double-stranded DNA polymers down to at least 175 nm in the vacuum uv. Three sets of sequence isomers were studied: (a) poly[d(A-C).d(G-T)] and poly[d(A-G).d(C-T)], (b) poly[d(A-C-C).d(G-G-T)] and poly[d(A-C-G).d(C-G-T)], and (c) poly[d(A).d(T)], poly[d(A-T).d(A-T)], poly[d(A-A-T).d(A-T-T)], and poly[d(A-A-T-T).d(A-A-T-T)]. There were significant differences in the CD spectra at short wavelengths among each set of sequence isomers. The (G.C)-containing sequences had the largest vacuum uv bands, which were positive and in the wavelength range of 180-191 nm. There were no large negative bands at longer wavelengths, consistent with the polymers all being in right-handed conformations. Among the set of sequences containing only A.T base pairs, poly[d(A).d(T)] had the largest vacuum uv CD band, which was at 190 nm. This CD band was not present in the spectra of the other (A.T)-rich polymers and was absent from two first-neighbor estimations of the poly[d(A).d(T)] spectrum obtained from the other three sequences. We concluded that the sequence dependence of the vacuum uv spectra of the (A.T)-rich polymers was due in part to the fact that poly[d(A).d(T)] exists in a noncanonical B conformation.

A.U and G.C base pairs in synthetic RNAS have characteristic vacuum UV CD bands

The vacuum UV CD spectra of GpC, CpG, GpG, poly[r(A)], poly[r(C)], poly[r(U)], poly[r(A-U)], poly[r(G).r(C)], poly[r(A).r(U)], and poly[r(A-U).r(A-U)] were measured down to at least 174 nm. These spectra, together with the published spectra of poly[r(G-C).r(G-C)], CMP, and GMP, were sufficient to estimate the CD changes upon base pairing for four double-stranded RNAs. The vacuum UV CD bands of poly[r(A)], poly[r(C)], and the dinucleotides GpC and CpG were temperature dependent, suggesting that they were due to intrastrand base stacking. The dinucleotide sequence isomers GpC and CpG had very different vacuum UV CD bands, indicating that the sequence can play a role in the vacuum UV CD of single-stranded RNA. The vacuum UV CD bands of the double-stranded (G.C)-containing RNAs, poly[r(G).r(C)] and poly[r(G-C).r(G-C)], were larger than the measured or estimated vacuum UV CD bands of their constituent single-stranded RNAs and were similar in having an exceptionally large positive band at about 185 nm and negative bands near 176 and 209 nm. These similarities were enhanced in difference-CD spectra, obtained by subtracting the CD spectra of the single strands from the CD spectra of the corresponding double strands. The (A.U)-containing double-stranded RNAs poly[r(A).r(U)] and poly[r(A-U).r(A-U)] were similar only in that their vacuum UV CD spectra had a large positive band at 177 nm. The spectrum of poly[r(A).r(U)] had a shoulder at 188 nm and a negative band at 206 nm, whereas the spectrum of poly[r(A-U).r(A-U)] had a positive band at 201 nm. On the other hand, difference spectra of both of the (A.U)-containing polymers had positive bands at about 177 and 201 nm. Thus, the difference-CD spectra revealed CD bands characteristic of A.U and G.C base pairing. (ABSTRACT TRUNCATED AT 250 WORDS)

A.T and C.C+ base pairs can form simultaneously in a novel multistranded DNA complex

Previous experiments have established that in certain synthetic oligomeric DNA sequences, including mixtures of d(AACC)5 with d(CCTT)5, adenine-thymine (A.T) base pairs form to the exclusion of neighboring protonated cytosine-cytosine (C.C+) base pairs [Edwards, E., Ratliff, R., & Gray, D. (1988) Biochemistry 27, 5166-5174]. In the present work, circular dichroism and other measurements were used to study DNA oligomers that represented two additional classes with respect to the formation of A.T and/or C.C+ base pairs. (1) One class included two sets of repeating pentameric DNA sequences, d(CCAAT)3-6 and d(AATCC)4,5. For both of these sets of oligomers, an increase in the magnitude of the long-wavelength positive CD band centered at about 280 nm occurred as the pH was lowered from 7 to 5 at 0.1 and 0.5 M Na+, indicating that C.C+ base pairs formed. Even though it may have been possible for these oligomers to form duplexes with two antiparallel A.T base pairs per pentamer, no A.T base pairing was detected by monitoring the CD changes at 250 nm. Thus, spectral data showed that as few as 40% C.C+ base pairs were stable in two sets of oligomers in which A.T base pairs did not form adjacent to, or in place of, C.C+ base pairs. (2) Another class of oligomer was represented by d(C4A4T4C4), which was studied by CD, HPLC, and centrifugation experiments. We confirmed previous work that this sequence was able to form both types of base pairs as the pH and temperature were lowered [Gray, D., Cui, T., & Ratliff, R. (1984) Nucleic Acids Res. 12, 7565-7580].(ABSTRACT TRUNCATED AT 250 WORDS)

Specificity of the binding of fd gene 5 protein to polydeoxyribonucleotides

The long-wavelength circular dichroism (CD) changes induced by binding of fd gene 5 protein to the alternating DNA sequences poly[d(A-C)] and poly[d(C-T)] were similar to those induced by the protein complexed with the homopolymers poly[d(A)], poly[d(C)], and poly[d(T)]. The fd gene 5 protein showed different binding affinities for the various polymers. The affinity for the alternating sequences was not compositionally weighted with respect to the affinities for the homopolymers, indicating that both base composition and base sequence of the template are important for the binding of fd gene 5 protein.

CD measurements show that fd and IKe gene 5 proteins undergo minimal conformational changes upon binding to poly(rA)

Circular dichroism (CD) measurements were made on both fd and IKe gene 5 proteins in solution. The difference between the CD spectra of these two proteins was interpreted as being the result of an enhanced tyrosine contribution in the IKe gene 5 protein spectrum. There was no spectral evidence for significant alpha-helical structures in either of the two gene 5 proteins. CD measurements were also made on complexes of the two gene 5 proteins with poly(rA). The long-wavelength region (300-250 nm) of the CD spectra of both complexes was essentially like that of free poly(rA) at a high temperature. With the assumption that the poly(rA) components of the complexes had the same CD at all wavelengths as did free poly(rA) at a high temperature, it was possible to separate the CD spectra of the complexes into protein and nucleic acid components. Except for the tyrosine CD band at 229 nm, there were no significant changes in the CD bands of either protein upon binding to poly(rA). Thus, each protein appeared to maintain essentially the same overall secondary conformation when complexed with poly(rA) as when in its free state.

A CD determination of the alpha-helix contents of the coat proteins of four filamentous bacteriophages: fd, IKe, Pf1, and Pf3

The CD spectra of four filamentous bacteriophages--fd, IKe, Pf1, and Pf3--were analyzed to determine the alpha-helix contents of their major coat proteins. Measured spectra included the 192-nm band so that analyses could be carried out over the full wavelength range of the reference spectra for protein secondary structures available (a) from globular proteins [J.T. Yang, C.S.C. Wu, and H.M. Martinez (1986) Methods in Enzymology 130, 208-269] and (b) from poly(L-lysine) [N. Greenfield and G.D. Fasman (1960) Biochemistry 8, 4108-4116]. Extended analyses were also performed with the addition of the spectrum of a model beta-turn to the Greenfield and Fasman reference set, with the spectrum of a short alpha-helix in the Yang et al. reference set, and with an estimate of the spectrum of Trp added to both reference sets. The reference set based on the simple poly(L-lysine) polypeptide, plus a spectrum of a model beta-turn or of Trp, gave reasonably good fits to the measured spectra for all four phages and yielded the largest percentages of alpha-helix. The class I phages--fd and IKe--had large percentages of alpha-helix of 98 +/- 2 and 97 +/- 5%, respectively, while the two class II phages--Pf1 and Pf3--had similar but smaller alpha-helix contents of 83 +/- 6 and 84 +/- 2, respectively. While these alpha-helix contents were within the ranges previously reported from CD spectra of these phages in solution, they were more precise, and they indicated that the coat proteins of the intact phages have CD spectra that are probably modeled better by the reference spectra of polypeptides than by those of globular proteins.

13C NMR of methylated lysines of fd gene 5 protein: evidence for a conformational change involving lysine 24 upon binding of a negatively charged lanthanide chelate

Helical complexes formed between fd DNA and reductively methylated fd gene 5 protein were indistinguishable by electron microscopy from complexes formed with the nonmethylated protein. 13C NMR spectroscopy of 13C-enriched N epsilon, N epsilon-dimethyllsyl residues of the protein showed that three of these residues (Lys-24, Lys-46, and Lys-69) were selectively perturbed by binding of the oligomer d(pA)7. These were the same lysyl residues that we previously found to be most protected from methylation by binding of the protein to poly[r(U)] [Dick, L. R., Sherry, A. D., Newkirk, M. M., & Gray D. M. (1988) J. Biol. Chem. 263, 18864-18872]. Thus, these lysines are probably directly involved in the nucleic acid binding function of the protein. Negatively charged chelates of lanthanide ions were used to perturb the 13C NMR resonances of labeled lysyl and amino-terminal residues of the gene 5 protein. The terbium chelate was found to bind tightly (Ka approximately 10(5) M-1) to the protein with a stoichiometry of 1 chelate molecule per protein dimer. 13C resonances of Lys-24, Lys-46, and Lys-69 were maximally shifted by the terbium chelate and were maximally relaxed by the gadolinium chelate. Also, the terbium chelate was excluded by the oligomer d(pA)7. Computer fits of the induced chemical shifts of 13C resonances with those expected for various positions of the terbium chelate failed to yield a possible chelate binding site unless the chemical shift for Lys-24 was excluded from the fitting process.(ABSTRACT TRUNCATED AT 250 WORDS)

Reductive methylation and 13C NMR studies of the lysyl residues of fd gene 5 protein. Lysines 24, 46, and 69 may be involved in nucleic acid binding

We have examined the role of lysyl residues in the binding of fd gene 5 protein to a nucleic acid polymer. The lysyl residues of the protein were chemically modified to form N epsilon, N epsilon-dimethyllysyl derivatives containing 13C-enriched methyl groups. The 13C NMR spectrum of the modified protein was studied as a function of pH and salt concentration. Differences in the local magnetic environment of the six dimethyllysyl amino groups allowed all six 13C resonances to be resolved for samples in the pH range 8.5-9.0 at less than 50 mM ionic strength. One of the dimethylamino resonances was split at low pH, indicating that the two methyl groups were nonequivalent and that the corresponding lysyl residue (either Lys-3 or Lys-7) might be involved in an ion-pairing interaction. Specific lysyl residues were protected from methylation when the protein was bound to poly(rU). The level of protection of individual lysyl residues was quantitated using peptide mapping and sequencing of gene 5 protein labeled with 3H and 14C radioactive labels. Lysines 24, 46, and 69 showed significant protection (33-52%) from methylation in the protein-polynucleotide complex, suggesting that these 3 residues form part of the nucleic acid-binding site. The alpha-amino group of Met-1 was relatively unreactive in both the free and bound protein, which indicated that the amino terminus is not as exposed in solution as in the crystal structure (Brayer, G.D., and McPherson, A. (1983) J. Mol. Biol. 169, 565-596).

Circular dichroism spectra of DNA oligomers show that short interior stretches of C.C+ base pairs do not form in duplexes with A.T base pairs

Circular dichroism (CD) experiments were carried out on a series of DNA oligomers to determine if short internal stretches of protonated cytosine-cytosine (C.C+) base pairs could coexist with adenine-thymine (A.T) base pairs. (1) C.C+ base pairs did form in the absence of A.T base pairs in the individual oligomers d(AACC)5 and d(CCTT)5, as indicated by the appearance of a long-wavelength CD band centered at 282-284 nm, when the pH was lowered to 6 or 5 at 0.5 M Na+. A comparison of measured with calculated spectra showed that d(CCTT)5 at pH 5, 0.5 M Na+, 20 degrees C, likely adopted a structure with a central core of stacked C.C+ base pairs and looped-out thymines. Under the same conditions, it appeared that C.C+ base pairs also formed in d(AACC)5, but with the adenines remaining intrahelical. Each of these oligomers showed a cooperative transition for formation of C.C+ base pairs as the temperature was lowered, with C.C+ base pairs forming at a higher temperature in d(CCTT)5 than in d(AACC)5. A.T base formed in equimolar mixtures of d(AACC)5 plus d(CCTT)5 as monitored by an increase in the negative magnitude of the 250-nm CD band. However, a large increase did not appear at about 285 nm in CD spectra of the mixtures, showing that there were no stacked C.C+ base pairs in the d(AACC)5.d(CCTT)5 duplex even though they formed under the same conditions in the individual strands. Thus, in this duplex, A.T base pairs prevented the formation of neighboring internal C.C+ base pairs. (2) CD measurements were also made of d(A10C4T10).(ABSTRACT TRUNCATED AT 250 WORDS)

CD of six different conformational rearrangements of poly[d(A-G).d(C-T)] induced by low pH

On the basis of circular dichroism (CD) data, we have now identified six different conformational states (other than the duplex) of poly[d(A-G).d(C-T)] at pH values between 8 and 2.5 (at 0.01M Na+; 20 degrees C). Three of these structural rearrangements were observed as the pH was lowered from 8 to 2.5, and three additional rearrangements were observed as the pH was raised from 2.5 back to neutral pH. The major components of the six conformational states were defined using appropriate combinations of the CD spectra of the duplex, triplex, and denatured forms of this polymer, as well as the CD spectra of the individual single strands and their respective acid-induced self-complexes. Our results show that the acid-induced rearrangements of poly[d(A-G).d(C-T)] include not only the poly[d(C+-T).d(A-G).d(C-T)] triplex, but also include the poly[d(C-T)] loop-out structure and a self-complexed form of the poly[d(A-G)] strand that is pH-dependent.

fd gene 5 protein binds to double-stranded polydeoxyribonucleotides poly(dA.dT) and poly[d(A-T).d(A-T)]

Circular dichroism (CD) data indicated that fd gene 5 protein (G5P) formed complexes with double-stranded poly(dA.dT) and poly[d(A-T).d(A-T)]. CD spectra of both polymers at wavelengths above 255 nm were altered upon protein binding. These spectral changes differed from those caused by strand separation. In addition, the tyrosyl 228-nm CD band of G5P decreased more than 65% upon binding of the protein to these double-stranded polymers. This reduction was significantly greater than that observed for binding to single-stranded poly(dA), poly(dT), and poly[d(A-T)] but was similar to that observed for binding of the protein to double-stranded RNA [Gray, C.W., Page, G.A., & Gray, D.M. (1984) J. Mol. Biol. 175, 553-559]. The decrease in melting temperature caused by the protein was twice as great for poly[d(A-T).d(A-T)] as for poly(dA.dT) in 5 mM tris(hydroxymethyl)aminomethane hydrochloride (Tris-HCl), pH 7. Upon heat denaturation of the poly(dA.dT)-G5P complex, CD spectra showed that single-stranded poly(dA) and poly(dT) formed complexes with the protein. The binding of gene 5 protein lowered the melting temperature of poly(dA.dT) by 10 degrees C in 5 mM Tris-HCl, pH 7, but after reducing the binding to the double-stranded form of the polymer by the addition of 0.1 M Na+, the melting temperature was lowered by approximately 30 degrees C. Since increasing the salt concentration decreases the affinity of G5P for the poly(dA) and poly(dT) single strands and increases the stability of the double-stranded polymer, the ability of the gene 5 protein to destabilize poly(dA.dT) appeared to be significantly affected by its binding to the double-stranded form of the polymer.

CD of homopolymer DNA-RNA hybrid duplexes and triplexes containing A-T or A-U base pairs

CD spectra and difference-CD spectra of (a) two DNA X RNA hybrid duplexes (poly[r(A) X d(U)] and poly[r(A) X d(T)]) and (b) three hybrid triplexes (poly-[d(T) X r(A) X d(T)], poly[r(U) X d(A) X r(U)], and poly[r(T) X d(A) X r(T)]) were obtained and compared with CD spectra of six A X U- and A X T-containing duplex and triplex RNAs and DNAs. We found that the CD spectra of the homopolymer duplexes above 260 nm were correlated with the type of base pair present (A-U or A-T) and could be interpreted as the sum of the CD contributions of the single strands plus a contribution due to base pairing. The spectra of the duplexes below 235 nm were related to the polypurine strands present (poly-[r(A)] or poly[d(A)]). We interpret the CD intensity in the intermediate 255-235 nm region of these spectra to be mainly due to stacking of the constituent polypurine strands. Three of the five hybrids (poly[r(A) X d(U)], poly[r(A) X d(T)], and poly[d(T) X r(A) X d(T)]) were found to have heteronomous conformations, while poly[r(U) X d(A) X r(U)] was found to be the most A-like and poly[r(T) X d(A) X r(T)], the least A-like.