Hemoglobin Deer Lodge (beta 2 His replaced by Arg). Consequences of altering the 2,3-diphosphoglycerate binding site.

Hemoglobin Deer Lodge is an abnormal human hemoglobin with arginine substituted for histidine at the beta 2 position. X-ray crystallography of normal human hemoglobin has shown that the beta 2 residue is normally part of the binding site for 2,3-diphosphoglycerate. The substitution of arginine for histidine at beta 2 affects both the kinetics and equilibria of ligand binding. When stripped of anions, Hb Deer Lodge has an increased oxygen affinity and a decreased degree of cooperativity relative to Hb A. The alkaline Bohr effect is slightly increased and there are marked increases in oxygen affinity below pH 6 and above pH 8. In the presence of 2,3-diphosphoglycerate the cooperativity in increases to nromal and the pH dependence of oxygen binding is reduced. This contrasts with the enhanced Bohr effect seen for Hb A in the presence of organic phosphates. Due to enhanced anion binding at high pH, Hb Deer Lodge has a slightly lower oxygen affinity than Hb A at pH 9 in the presence of 2,3-diphosphoglycerate or inositol hexaphosphate. Kinetic studies at neutral pH in the absence of organic phosphates revealed biphasicity in the rate of oxygen dissociation from Hb Deer Lodge, while approximately linear time courses were observed for Hb A. The fast phase of the oxygen dissociation kinetics shows great pH sensitivity, and organic phosphates increase the rate and percentage of the fast phase without greatly affecting the slow phase. The two phases are not resolvable at high pH. CO combination kinetics are much like those of Hb A except that "fast" and "slow" phases were apparent at wavelengths near the deoxy-CO isobestic point. We suggest that functional differences between the alpha and beta chains are enhanced in Hb Deer Lodge. After flash photolysis of the CO derivative, the percentage of quickly reacting material was slightly greater for Hb Deer Lodge than for Hb A. This may imply a somewhat greater tendency to dissociate into high affinity subunits. The substitution of arginine for histidine at beta 2 thus results in a macromolecule whose ligand-binding properties are significantly altered, the primary differences being expressed at high pH where Hb Deer Lodge binds anions more strongly than Hb A. The properties of Hb Deer Lodge are compared to those of other hemoglobin variants with substitutions at residues involved in binding of 2,3-diphosphoglycerate.     

Hemoglobin Abruzzo (beta143 (H21) His replaced by Arg). Consequences of altering the 2,3-diphosphoglycerate binding site.

Hemoglobin Abruzzo is an abnormal human hemoglobin with a substitution at a residue known to be involved in the binding of 2,3-diphosphoglyceric acid. It has increased oxygen affinity and reduced heme-heme interaction in the absence of organic or inorganic phosphate cofactors. In inorganic phosphate buffers the Bohr effect and heme-heme interaction are normal, but the oxygen affinity remains higher than that of hemoglobin A. CO combination in inorganic phosphate is more strongly autocatalytic than in normal hemoglobin and a slower rate of oxygen dissociation is observed. Although many of the functional differences of this variant may be attributed to the high oxygen affinity of the mutant beta chains, the interactions between subunits are also affected by the histidine to arginine substitution at beta143. Stripped hemoglobin Abruzzo appears to be significantly more dissociated than hemoglobin A. Kinetic studies indicate that interaction with organic or inorganic phosphates decreases its subunit dissociation. In all of the functional properties examined, hemoglobin Abruzzo is more sensitive to the allosteric influence of organic and inorganic anions than is hemoglobin A.     

Fluorescence and oxygen evolution from Chlorella pyrenoidosa

The process of photosynthetic energy conversion in Chlorella pyrenoidosa was investigated by simultaneous measurement of transient and steady-state rates of O₂ evolution and fluorescence.

1. 1. Alternation or superimposition of light 1 and light 2 illumination induces both fast and slow changes in fluorescence and rate of O₂ evolution. The fast changes are ascribed to changes in conditions of the reaction centers in the context of the ¹ model and the kinetic analysis of ². The slow changes are interpreted as adaptations to the intensity and wavelength of illumination. The adaptive mechanism is described in terms of slow variation in fraction () of total absorbed quanta delivered to System 2. At low intensities, the calculated value of for cells adapted to light 2 illumination (light 2 state) is approx. 0.9 of for cells adapted to light 1 illumination (light 1 state).

2. 2. An increase in fluorescence yield was found to accompany the decrease in O₂ yield at the onset of light saturation with either light 1 or light 2 excitation. Variation in is proposed to account for the differences between the maximum fluorescence yield observed in steady-state conditions and the 1.5 times higher maximum yield observed in transient conditions or in cells inhibited by 3(3,4-dichlorophenyl)-1,1-dimethylurea. Variation in can also explain the observation of a higher rate of fluorescence emission with light 1 excitation than with light 2 excitation for a given steady-state rate of O₂ evolution.

3. 3. A model for energy conversion by System 2 is proposed to account for our observations. The model proposes competitive dissipation of absorbed energy by photochemical trapping at reaction centers and by fluorescence and radiationless de-excitation from both the pigment bed and reaction centers of System 2.

Sexual transmission of hepatitis C virus and its relation with hepatitis B virus and HIV.

OBJECTIVE--To determine the extent of transmission of hepatitis C virus in sexual partners of intravenous drug misusers and to examine the relation between the prevalences of HIV, hepatitis B virus, and hepatitis C virus infections in homosexual men and intravenous drug misusers and their sexual partners. DESIGN--Serum samples collected between 1984 and 1988 were tested for hepatitis B virus markers and antibodies against hepatitis C virus by enzyme linked immunosorbent assay (ELISA) and for HIV antibody by enzyme immune analysis and western blotting. SETTING--Large referral university hospital with an external AIDS clinic in the metropolitan area of Barcelona, Spain. SUBJECTS--243 Intravenous drug misusers, 143 of their regular heterosexual partners, and 105 homosexual men. MAIN OUTCOME MEASURES--Prevalences of hepatitis C virus, hepatitis B virus, and HIV infections. RESULTS--In all, 178 of the 243 (73%) intravenous drug misusers, 16 out of 143 (11%) of their partners, and 17 of the 105 (16%) homosexual men had antibodies against hepatitis C virus. The presence of hepatitis C virus infection was unrelated to sex, age, the presence of HIV or hepatitis B virus infections, or the Centers for Disease Control stage of HIV. In sexual partners of intravenous drug misusers there were strong correlations between the presence of hepatitis C virus infection and that of HIV (p = 0.001) and hepatitis B virus (p = 0.013) infections. CONCLUSIONS--Intravenous drug misusers have a high risk of acquiring hepatitis C virus, hepatitis B virus, and HIV infections, but the presence of hepatitis C virus infection seems to be unrelated to the presence of the other two viruses. Homosexual men have a high prevalence of HIV and hepatitis B virus infections with a low prevalence of hepatitis C virus infection, the presence of which is not related to that of the other two infections. Conversely, heterosexual partners of intravenous drug misusers have low prevalences of the three virus infections, but the presence of hepatitis C virus infection correlates significantly with the presence of HIV and hepatitis B infections. The rate of sexual transmission of hepatitis C virus seems to be low, even in partners of people known to be seropositive for this virus.     

Interactions of nicotinamide adenine dinucleotides with varied states and forms of hemoglobin

Spectrofluorometric techniques were used to quantify NADPH-hemoglobin interactions based on the quenching of NADPH fluorescence upon binding to hemoglobin. Fluorometric titrations were carried out with hemoglobin in varied states and with hemoglobins in which the beta-chain anion site is altered. At pH 6.5 in 0.05 M 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid buffer, NADPH binds with high affinity, Kd = 1.03 microM, to deoxy human hemoglobin tetramers. Lower affinity binding of NADPH occurs as the beta-chain anion-binding site is discharged by increasing the pH. Moreover, the cofactor binds in a 1:1 ratio to deoxy tetramers, inositol hexaphosphate binds competitively, and binding is decreased in hemoglobins whose structural alterations result in decreased effects of 2,3-diphosphoglycerate. The cofactor binds to oxidized (met) hemoglobin with an estimated Kd of 33.3 microM but has little or no affinity for the oxy form. These results indicate that NADPH binds at the beta-chain anion-binding site and can be considered as a fluorescent analog of 2,3-diphosphoglycerate. Fluorescence measurements gave no indication of NADPH binding to deoxygenated ferrous or ferric myoglobin. Reductive processes within the erythrocyte, such as reduction of met hemoglobin and hemoglobin-catalyzed enzymatic reactions, may be affected by the significant binding of the reduced cofactor to both deoxygenated and oxidized hemoglobin. Cofactor-hemoglobin interactions predict a shift in redox potential as red cells become oxygenated, which may account for unexplained oxygen-linked shifts in red cell metabolism.     

Brief communication: Self‐suckling in Barbary macaque (Macaca sylvanus) mothers before and after the death of their infant

We report here self‐suckling in four wild female Barbary macaques (Macaca sylvanus), living in two troops (i.e. “Flat face” and “Large” troop) in the middle‐Atlas Mountains, Morocco. The four females lost their infants due to predation or for unknown causes. Self‐suckling was observed before and after the infants died in the four females living in the “Flat face” troop. When the infants were still alive, self‐suckling was of short duration and it was probably a method to improve milk flow when the infant switched from one nipple to the other. After the infants died, self‐suckling lasted significantly longer and the females were apparently drinking their own milk. Self‐suckling was never observed among the four lactating females in the “Large” troop (including one monkey who lost her infant) and it could thus represent a cultural difference. Moreover, self‐suckling after the death of an infant may be explained by the energetic and immunological benefits that a monkey may gain from drinking their own milk. Finally, self‐suckling may have a stress‐releasing effect on the mothers who have lost their infants. Am J Phys Anthropol, 2009. © 2009 Wiley‐Liss, Inc.