Feasibility of blood testing combined with PET-CT to screen for cancer and guide intervention.

Cancer treatments are often more successful when the disease is detected early. We evaluated the feasibility and safety of multicancer blood testing coupled with positron emission tomography-computed tomography (PET-CT) imaging to detect cancer in a prospective, interventional study of 10,006 women not previously known to have cancer. Positive blood tests were independently confirmed by a diagnostic PET-CT, which also localized the cancer.

Immobilization of large, aliovalent cations in the small-pore zeolite K-natrolite by means of pressure.

High-pressure ion exchange of small-pore zeolite K-natrolite allows immobilization of nominally non-exchangeable aliovalent cations such as trivalent europium. A sample exchanged at 3.0(1) GPa and 250 °C contains about 4.

Telecare system for cardiac surgery patients: implementation and effectiveness.

Objectives: To manage a patient's blood pressure and recovery, and to reduce unnecessary hospital visits after heart surgery, we developed and established a telecare service.

Methods: We established and test-operated the system that enabled biometric data to be measured and monitored at home, and directed connections to the video consultation with monitoring personnel and medical staff when abnormal symptoms were detected.

Results: As a result of using the telecare service with patients discharged from the hospital after undergoing heart surgery, the patients were mostly satisfied with the service and use of the equipment, and some patients wanted to actually receive the service continuously along with a device which could be more easily used.

Mutant proteins as cancer-specific biomarkers.

Cancer biomarkers are currently the subject of intense research because of their potential utility for diagnosis, prognosis, and targeted therapy. In theory, the gene products resulting from somatic mutations are the ultimate protein biomarkers, being not simply associated with tumors but actually responsible for tumorigenesis. We show here that the altered protein products resulting from somatic mutations can be identified directly and quantified by mass spectrometry.

Perturbations to the geometric and electronic structure of the CuA site: factors that influence delocalization and their contributions to electron transfer.

Using a combination of electronic spectroscopies and DFT calculations, the effect of pH perturbation on the geometric and electronic structure of the CuA site has been defined. Descriptions are developed for high pH (pH = 7) and low pH (pH = 4) forms of CuA azurin and its H120A mutant which address the discrepancies concerning the extent of delocalization indicated by multifrequency EPR and ENDOR data (J. Am.

Spectroscopic and density functional theory studies of the blue-copper site in M121SeM and C112SeC azurin: Cu-Se versus Cu-S bonding.

S K-edge X-ray absorption, UV-vis absorption, magnetic circular dichroism (MCD), and resonance Raman spectroscopies are used to investigate the electronic structure differences among WT, M121SeM, and C112SeC Pseudomonas aeruginosa (P.a) azurin. A comparison of S K-edge XAS of WT and M121SeM azurin and a CuII-thioether model complex shows that the 38% S character in the ground state wave function of the blue-copper (BC) sites solely reflects the Cu-SCys bond.

A temperature independent pH (TIP) buffer for biomedical biophysical applications at low temperatures.

A temperature independent pH buffer has been developed from a combination of buffers of opposite-sign temperature coefficients, and utility in low temperature spectroscopy and storage of pH sensitive compounds is demonstrated.

Reorganization energy of the CuA center in purple azurin: impact of the mixed valence-to-trapped valence state transition.

Mixed valence (MV) coordination compounds play important roles in redox reactions in chemistry and biology. Details of the contribution of a mixed valence state to protein electron transfer (ET) reactivity such as reorganization energy, however, have not been experimentally defined. Herein we report measurements of reorganization energies of a binuclear CuA center engineered into Pseudomonas aeruginosa azurin that exhibits a reversible transition between a totally delocalized MV state at pH 8.

Reduction potential tuning of the blue copper center in Pseudomonas aeruginosa azurin by the axial methionine as probed by unnatural amino acids.

The conserved axial ligand methionine 121 from Pseudomonas aeruginosa azurin (Az) has been replaced by isostructural unnatural amino acid analogues, oxomethionine (OxM), difluoromethionine (DFM), trifluoromethionine (TFM), selenomethionine (SeM), and norleucine (Nle) using expressed protein ligation. The replacements resulted in < 6 nm shifts in the S(Cys)-Cu charge transfer (CT) band in the electronic absorption spectra and < 8 gauss changes in the copper hyperfine coupling constants (AII) in the X-band electron paramagnetic resonance spectra, suggesting that isostructural replacement of Met resulted in minimal structural perturbation of the copper center. The slight blue shifts of the CT band follow the trend of stronger electronegativity of the ligands.

Spectroscopic characterizations of bridging cysteine ligand variants of an engineered Cu2(Scys)2 CuA azurin.

Bridging cysteine ligands of the Cu(A) center in an engineered Cu(A) azurin were replaced with serine, and the variants (Cys116Ser and Cys112Ser Cu(A) azurin) were characterized by mass spectrometry, as well as UV-vis and electron paramagnetic resonance (EPR) spectroscopic techniques. The replacements resulted in dramatically perturbed spectroscopic properties, indicating that the cysteines play a critical role in maintaining the structural integrity of the Cu center. The replacements at different cysteine residues resulted in different perturbations, even though the two cysteines are geometrically symmetrical in the primary coordination sphere with respect to the two copper ions.

Blue ferrocenium azurin: an organometalloprotein with tunable redox properties.

A ferrocene derivative (2-[(methylsulfonyl)thio]ethylferrocene) (1) has been synthesized and incorporated into apo-azurin from Pseudomonas aeruginosa by covalent attachment to the highly conserved Cys112. The resulting artificial organometalloprotein (a protein containing organometallic compounds in the active site) has been characterized by UV-vis, electrospray mass spectrometry, and cyclic voltammetry (CV). Incorporation of 1 into azurin resulted in a higher solubility of the ferrocene group and improved stability of the ferrocenium species in aqueous solution, as shown by a more intense UV-vis absorption and a more reversible CV of the attached ferrocene group, respectively.

Axial methionine has much less influence on reduction potentials in a CuA center than in a blue copper center.

The role of the highly conserved axial methionine of the purple CuA center in an engineered CuA azurin on modulating the reduction potentials of the copper center was investigated by a systematic replacement of the methionine with glutamate, aspartate, and leucine. In contrast to the same substitutions in the structurally related blue copper azurin, much smaller changes in reduction potential were observed in the CuA azurin upon replacing the methionine ligand with negatively charged Glu (-8 mV) and Asp (-5 mV) and more hydrophobic Leu (+16 mV). These findings are important in understanding the different roles of the two cupredoxins.

pH-dependent transition between delocalized and trapped valence states of a CuA center and its possible role in proton-coupled electron transfer.

A pH-dependent transition between delocalized and trapped mixed valence states of an engineered CuA center in azurin has been investigated by UV-visible absorption and electron paramagnetic resonance spectroscopic techniques. At pH 7.0, the CuA azurin displays a typical delocalized mixed valence dinuclear [Cu(1.

Spectroscopic evidence for interactions between hexacyanoiron(II/III) and an engineered purple CuA azurin.

Interactions between hexacyanoiron(II/III) and a dinuclear, mixed valence Cu(A) center in engineered Cu(A) azurin have been investigated by UV-visible (UV-vis) and electron paramagnetic resonance (EPR) spectroscopic techniques. Addition of ferricyanide (hexacyanoiron(III)) to the Cu(A) azurin resulted in a new absorption band around 500 nm in the UV-vis and an isotropic line at g = 2.16 in the EPR spectra.

Determination of reduction potential of an engineered Cu(A) azurin by cyclic voltammetry and spectrochemical titrations.

The reduction potentials of an engineered CuA azurin in its native and thermally denatured states have been determined using cyclic voltammetry and spectrochemical titrations. Using a 4,4'-dipyridyl disulfide modified gold electrode, the reduction potentials of native and thermally denatured CuA azurin are the same within the experimental error (422 +/- 5 and 425 +/- 5 mV vs. NHE, respectively, in 50 mM ammonium acetate buffer, pH 5.