Planorbis corneus haemoglobin. Circular dichroism and susceptibility to proteases.

The purified haemoglobin of Planorbis corneus was subjected to protease digestion and the resulting products characterised by gel filtration and detergent-gel electrophoresis. Small functional subunits of molecular weights approximately 20,000 were obtained corresponding to a single haem group, but multiples of this unit were also always obtained even at high proteolytic enzyme: haemoglobin ratios. This suggested that the subunits of the native molecule (one-tenth containing perhaps ten O2-binding sites) were made up of single-binding site domains linked by regions of polypeptide chains having different susceptibilities to proteases. The far ultraviolet CD of the native haemoglobin indicated the presence of a high helix content (75--80%) in the protein. The near ultraviolet and visible CD spectra of oxy- deoxy-, and CO-haemoglobin were reported. Planorbis haemoglobin CD was more like that of vertebrate haemoglobins than that of haemoblobins. Nevertheless the Soret CD of Planorbis oxyhaemoglobin had only about half the rotational strength of that of human haemoglobin A, and was halved again upon removal of the ligand. Also in contrast to Lumbricus and human haemoglobins there was only a small decrease in rotational strength in the 260 nm band when Planorbis oxyhaemoglobin was deoxygenated.     

Effect of C02 binding to haemoglobin on the reactivity of the SH groups at position beta 93

In deoxygenated human haemoglobin A_II and sheep haemoglobin B, in the presence of CO₂ the rate of reaction of the SH groups at position ß₉₃ decreased significantly, but did not change in deoxygenated haemoglobin A_Ic, where the N-terminal α amino groups of the ß chains are blocked. In the absence of CO₂ the SH reaction rates were identical for all three haemoglobins in deoxy form, but differed for the respective oxyhaemoglobins. In the presence of CO₂ the individual rate constants for oxyhaemoglobin were not altered. It is concluded that binding of CO₂ to haemoglobin leads primarily to a stabilisation of the tertiary deoxy structure of the individual subunits, rather than to a stabilisation of the deoxy quaternary structure of the tetramer.     

Oxygen-binding characteristics of three extra-cellular haemoglobins of Artemia salina

The oxygen-binding characteristics of the three extracellular haemoglobins of brine shrimp (Artemia salina) were studied in vitro by using highly purified preparations. Haemoglobin I is induced last in the development of brine shrimps when functional gills are formed. It has the lowest oxygen affinity (p₅₀ 5.34mmHg), an intermediate Bohr effect (ø −0.09 at 20°C) above pH8 and a temperature-sensitivity (ΔH −44.8 to −45.6kJ/mol at pH8–9) comparable with those observed with other invertebrate haemoglobins [Weber & Heidemann (1977) Comp. Biochem. Physiol. A 57, 151–155]. Haemoglobin II, which is the first to be induced, soon after hatching of nauplius larvae, persists generally throughout the whole adult life. It has an intermediate oxygen affinity (p₅₀ 3.7mmHg), the highest Bohr effect (ø −0.21 at 20°C) above pH8 and a similar temperature-sensitivity (ΔH −46.0 to −54.8kJ/mol at pH8–9) as haemoglobin I. However, haemoglobin III, which is induced second several hours after the induction of haemoglobin II but disappearing from the haemolymph in the middle of adult life, has the highest oxygen affinity (p₅₀ 1.8mmHg), the lowest Bohr effect (ø −0.03 at 20°C) above pH8.5 and a high resistance against temperature variation between 10 and 25°C at pH8.5–9 (ΔH −22.6 to −23.0kJ/mol). At pH7.5–8, haemoglobin III exhibits a similar temperature-sensitivity under 30°C as do other haemoglobins. All three haemoglobins have a rather low co-operativity, with Hill coefficients (h 1.6–1.9 at pH8.5), which are dependent on both pH and temperature. The highest co-operativity was observed at 20°C and pH9 for haemoglobins I and II, whereas it was at 27°C and pH8.5 for haemoglobin III. Thus the oxygen-binding behaviour of haemoglobin III in vitro is significantly different from those of haemoglobins I and II and indicates possibly its specific physiological role in vivo in the adaptive process in the natural environment.     

Involvement of superoxide anion in the reaction mechanism of haemoglobin oxidation by nitrite.

The sigmoidal time course of haemoglobin oxidation by nitrite, involving an initial slow reaction accompanied by a subsequent rapid reaction, was extensively explored. The initial slow reaction was much prolonged by the addition of superoxide dismutase to the reaction mixture. On the other hand, in the presence of superoxide anion generated by xanthine oxidase systems, the slow phase disappeared and the reaction changed to first-order kinetics. The oxidation of intermediate haemoglobins [defined as haemoglobin tetramer in which different chains (alpha- or beta-) are in the ferric state and in the ferrous state] such as (alpha 2+ beta 3+)2 and (alpha 3+ beta 2+)2 also proceeded in a sigmoidal manner. Similar effects of superoxide anion on these reactions were observed. Since the intermediate haemoglobins such as (alpha 2+ beta 3+)2 and (alpha 3+ beta 2+)2 were found to be produced by the oxidation of haemoglobin by nitrite, the changes in oxyhaemoglobin, intermediate haemoglobins and methaemoglobin during the reaction were followed by isoelectric-focusing electrophoresis. The amounts of (alpha 2+ beta 3+)2 were larger than those of (alpha 3+ beta 2+)2 at the initial stages of the reaction, suggesting that there is a functional difference between alpha- and beta-chains in the oxyhaemoglobin tetramer. On the basis of these results, a reaction model of the haemoglobin oxidation by nitrite was tentatively proposed. The changes in oxyhaemoglobin, intermediate haemoglobins and methaemoglobin were well fitted to the simulation curves generated from the reaction model. Details of the derivation of the equations used for kinetic analysis have been deposited as Supplement SUP 50112 (5 pages) with the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K. from whom copies may be obtained on the terms indicated in Biochem. J. (1978) 169, 5.     

Biochemische und cytogenetische Untersuchungen zur Natur des Hämoglobin-Polymorphismus bei Chironomus tentans und Chironomus pallidivittatus

The haemoglobin of chironomids is dissolved in the body fluid of the larvae and can be separated electrophoretically in Chironomus tentans into 10, and in C. pallidivittatus into 8, different bands. The molecular weight determined under the electrophoretic conditions was 15,000±1,000 for each haemoglobin band. This means that each haemoglobin band represented a single protein chain. In each species 7 haemoglobins could be characterised as species specific according to their different electrophoretic mobilities, developmental characteristics and the fact that one haemoglobin could be correlated genetically with a specific chromosome inversion. The inheritance of all these species specific haemoglobins was found to be co-dominant. With cytogenetic methods it was possible to define the loci of the species specific haemoglobin genes as being restricted to certain parts of chromosome 3. This finding suggests gene duplication as the most likely mecanism of the evolution of haemoglobins in Chironomus.     

Equilibria and kinetics of oxygen and carbon monoxide binding to the haemoglobin of the teleostSynbranchus marmoratus

• 1. The haemoglobins of the air-breathing fishSynbranchus marmoratus have multiple components and demonstrate polymorphism.
• 2. The equilibrium of oxygen with whole cell and isolated haemoglobin has been compared. There is a considerable alkaline Bohr effect and this is more marked in stripped haemoglobin to which 1 mM ATP has been added.
• 3. The kinetics of oxygen dissociation from oxyhaemoglobin and of carbon monoxide combination to deoxyhaemoglobin have been studied, and show surprisingly uniform kinetic time courses for a system composed of multiple components.
• 4. These findings are discussed within the framework of the requirements of the animal in its mixed aerial-aquatic environment.

     

Reactions involving superoxide and normal and unstable haemoglobins.

Superoxide ions (O2-) oxidized oxyhaemoglobin to methaemoglobin and reduced methaemoglobin to oxyhaemoglobin. The reactions of superoxide and H2O2 with oxyhaemoglobin or methaemoglobin and their inhibition by superoxide dismutase or catalase were used to detect the formation of superoxide or H2O2 on autoxidation of oxyhaemoglobin. The rate of autoxidation was decreased at about 35% in the presence of both enzymes. The copper-catalysed autoxidation of Hb (haemoglobin) was also shown to involve superoxide production. Superoxide was released on autoxidation of three unstable haemoglobins and isolated alpha and beta chains, at rates faster than with Hb A. Reactions of superoxide with Hb Christchurch and Hb Belfast were identical with those with Hb A, and occurred at the same rate. Hb Koln contrasted with the other haemoglobins in that the thiol groups of residue beta-93 as well as the haem groups reacted with superoxide. Haemichrome formation from methaemoglobin occurred very rapidly with Hb Christchurch and Hb Belfast, as well as the isolated chains, compared with Hb A. The process did not involve superoxide production or utilization. The relative importance of autoxidation and superoxide production compared with haemichrome formation in the haemolytic process associated with these abnormal haemoglobins and thalassaemia is considered.     

The measurement of the intrinsic alkaline Bohr effect of various human haemoglobins by isoelectric focusing

We have used isoelectric focusing to measure the differences between the pI values of various normal and mutant human haemoglobins when completely deoxygenated and when fully liganded with CO. It was assumed that the ΔpI(deox.–ox.) values might correspond quantitatively to the intrinsic alkaline Bohr effect, as most of the anionic cofactors of the haemoglobin molecule are `stripped' off during the electrophoretic process. In haemoglobins known to exhibit a normal Bohr coefficient (ΔlogP₅₀/ΔpH) in solutions, the ΔpI(deox.–ox.) values are lower the higher their respective pI(ox.) values. This indicates that for any particular haemoglobin the ΔpI(deox.–ox.) value accounts for the difference in surface charges at the pH of its pI value. This was confirmed by measuring, by the direct-titration technique, the difference in pH of deoxy and fully liganded haemoglobin A₀ (α₂β₂) solutions in conditions approximating those of the isoelectric focusing, i.e. at 5°C and very low concentration of KCl. The variation of the ΔpH(deox.–ox.) curve as a function of pH (ox.) was similar to the isoelectric-focusing curve relating the variation of ΔpI(deox.–ox.) versus pI(ox.) in various haemoglobins with Bohr factor identical with that of haemoglobin A₀. In haemoglobin A₀ the ΔpI(deox.–ox.) value is 0.17 pH unit, which corresponds to a difference of 1.20 positive charges between the oxy and deoxy states of the tetrameric haemoglobin. This value compares favourably with the values of the intrinsic Bohr effect estimated in back-titration experiments. The ΔpI(deox.–ox.) values of mutant or chemically modified haemoglobins carrying an abnormality at the N- or C-terminus of the α-chains are decreased by 30% compared with the ΔpI value measured in haemoglobin A₀. When the C-terminus of the β-chains is altered, as in Hb Nancy (α₂β^{Tyr-145→Asp}₂), we observed a 70% decrease in the ΔpI value compared with that measured in haemoglobin A₀. These values are in close agreement with the estimated respective roles of the two major Bohr groups, Val-1α and His-146β, at the origin of the intrinsic alkaline Bohr effect [Kilmartin, Fogg, Luzzana & Rossi-Bernardi (1973) J. Biol. Chem. 248, 7039–7043; Perutz, Kilmartin, Nishikura, Fogg, Butler & Rollema (1980) J. Mol. Biol. 138, 649–670]. In other mutant haemoglobins it is demonstrated also that the ΔpI(deox.–ox.) value may be decreased or even suppressed when the substitution affects residues involved in the stability of the tetramer. These results support the interpretation proposed by Perutz, Kilmartin, Nishikura, Fogg, Butler & Rollema [(1980), J. Mol. Biol. 138, 649–670] for the mechanism of the alkaline Bohr effect, and also indicate that the transition between the two quaternary configurations is a prerequisite for the full expression of the alkaline Bohr effect.     

A Cross-Reactive Monoclonal Antibody to Nematode Haemoglobin Enhances Protective Immune Responses to Nippostrongylus brasiliensis

Background

Nematode secreted haemoglobins have unusually high affinity for oxygen and possess nitric oxide deoxygenase, and catalase activity thought to be important in protection against host immune responses to infection. In this study, we generated a monoclonal antibody (48Eg) against haemoglobin of the nematode Anisakis pegreffii, and aimed to characterize cross-reactivity of 4E8g against haemoglobins of different nematodes and its potential to mediate protective immunity against a murine hookworm infection.

Methodology/Principal Findings

Immunoprecipitation was used to isolate the 4E8g-binding antigen in Anisakis and Ascaris extracts, which were identified as haemoglobins by peptide mass fingerprinting and MS/MS. Immunological cross-reactivity was also demonstrated with haemoglobin of the rodent hookworm N. brasiliensis. Immunogenicity of nematode haemoglobin in mice and humans was tested by immunoblotting. Anisakis haemoglobin was recognized by IgG and IgE antibodies of Anisakis-infected mice, while Ascaris haemoglobin was recognized by IgG but not IgE antibodies in mouse and human sera. Sequencing of Anisakis haemoglobin revealed high similarity to haemoglobin of a related marine nematode, Psuedoterranova decipiens, which lacks the four –HKEE repeats of Ascaris haemoglobin important in octamer assembly. The localization of haemoglobin in the different parasites was examined by immunohistochemistry and associated with the excretory-secretary ducts in Anisakis, Ascaris and N. brasiliensis. Anisakis haemoglobin was strongly expressed in the L3 stage, unlike Ascaris haemoglobin, which is reportedly mainly expressed in adult worms. Passive immunization of mice with 4E8g prior to infection with N. brasiliensis enhanced protective Th2 immunity and led to a significant decrease in worm burdens.

Conclusion

The monoclonal antibody 4E8g targets haemoglobin in broadly equivalent anatomical locations in parasitic nematodes and enhances host immunity to a hookworm infection.     

The pKa values of two histidine residues in human haemoglobin, the Bohr effect, and the dipole moments of alpha-helices

Studies of abnormal and chemically modified haemoglobins indicate that in 0.1 m-NaCl about 40% of the alkaline Bohr effect of human haemoglobin is contributed by the C-terminal histidine HC3(146)β. In deoxyhaemoglobin, the imidazole of this histidine forms a salt bridge with aspartate FG1(94)β, in oxyhaemoglobin or carbonmonoxyhaemoglobin it accepts a hydrogen bond from its own NH group instead. Kilmartin et al. (1973) showed that in 0.2 m-NaCl + 0.2 m-phosphate this change of ligation lowered the pK_a of the histidine from 8.0 in Hb³ to 7.1 in HbCO, but Russu et al. (1980) claimed that in bis-Tris buffer without added NaCl its pK_a in HbCO dropped no lower than 7.85, and that in this medium the C-terminal histidine made only a negligible contribution to the alkaline Bohr effect.We have compared the histidine resonances of HbCO A with those of three abnormal haemoglobins: HbCO Cowtown (His HC3(146)β → Leu), HbCO Wood (His FG4(97)β → Leu) and HbCO Malmø (His FG4(97)β → Gln). Our results show that the resonance assigned by Russu et al. to His HC3(146)β in fact belongs to His FG4(97)β. Although in Hb the pK_a of His HC3(146)β is 8.05 ± 0.05 independent of ionic strength, in HbCO its pK_a drops sharply with diminishing ionic strength, so that in the buffer employed by Russu et al. it has a pK_a of 6.2 and makes a contribution to the alkaline Bohr effect that is 57% larger than in the phosphate buffer employed by Kilmartin et al. (1973).In HbCO A, His FG4(97)β does not contribute to the Bohr effect, but in HbCO from which His HC3(146)β has been cleaved (HbCO des-His), His FG4(97)β is in equilibrium between two conformations with different pK_a values. This equilibrium varies with ionic strength and pH, and presumably also with degree of ligation of the haem moiety.In HbCO A, His FG4(97)β has a pK_a of 7.8 compared to the pK_a value of about 6.6 characteristic of free histidines at the surface of proteins. This high pK_a is accounted for by its interaction with the negative pole at the C terminus of helices F and FG. It corresponds to a free energy change of the same order as that observed in the interaction of histidines with carboxylate ions and confirms the strongly dipolar character of α-helices, which manifests itself even when they lie on the surface of the protein.     

The circular dichroism properties of φW-14 DNA containing α-putrescinylthymine

The circular dichroism properties of φW-14 DNA containing α-putrescinylthymine and its acetylated derivative have been examined in a number of aqueous solvents. Native φW-14 DNA exhibits a B-type CD spectrum whose characteristics do not entirely conform to what would be expected for its GC content (51%). The conformationally sensitive positive band above 260 nm has a rotational strength greater than that normally found in prokaryotic DNAs of comparable GC content, such as Escherichia coli DNA. The rotational strength of this band in the spectrum of the heat-denatured from of φW-14 DNA, however, is similar to that of heat denatured E. coli DNA. Abolition of the positive charge on the putrescine residues of native φW-14 DNA by reaction with CH₂O or by acetylation reduces the rotational strength to a level appropriate for its GC content. Increases in the electrolyte content of the solvent have the same effect, although the rotational strength of this band in φW-14 DNA does not become comparable to that of E. coli DNA until 6–7 M LiCl. Titration to pH 10.6 in solvents of modest electrolyte content, however, fails to appreciably affect the CD spectral properties of either native φW-14 DNA or the derivative in which half of the secondary and all of the primary amino groups have been acetylated. On the basis of these results we have concluded that the enhanced rotational strength of the positive band above 260 nm in the CD spectrum of φW-14 DNA is due to a conformational difference caused by an ion-pair interaction of the positively charged primary amino groups of putrescine with the phosphate backbone. The CD spectral properties, however, reveal that these differences, averaged over the entire basepair population, appear to be relatively small. The average conformation, at least in dilute aqueous solutions, seems to be an unexceptional B variant with conformational properties which would be more appropriate for a DNA of higher CG content.     

Histidine proton resonances of carbonmonoxyhaemoglobins A and Cowtown in chloride-free buffer

A re-examination of the C-2 histidine proton resonances of haemoglobins A and Cowtown (His HC3(146)β → Leu) in chloride-free Hepes buffer has shown that all the resonances present in haemoglobin A are present in haemoglobin Cowtown, so that the pK_a of His HC3(146)β cannot be determined by nuclear magnetic resonance in this buffer.     

The effect of hypoxia on haemoglobins and ATP levels in three freshwater fish species

The effects of hypoxia on haemoglobin electrophoresis and erythrocyte adenosine triphoshate (ATP) levels were studied in Cyprinus carpio, Sarotherodon mossambicus and Salmo gairdneri. Marked interspecies differences were recorded in the percentage composition of the various haemoglobin fractions and ATP levels for the three freshwater fish species under standard laboratory conditions. No significant intraspecies differences, however, were recorded in the haemoglobin components for the three treatment groups. ATP levels, on the other hand, declined with a reduced oxygen saturation of the aquarium water in all three species. It is concluded that the organo-phosphate levels in erythrocytes are responsible for changes in the oxygen affinity of fish haemoglobins and that no conformational changes in the haemoglobins of freshwater fish are anticipated under hypoxic conditions.     

The oxidation of oxyhaemoglobin by glyceraldehyde and other simple monosaccharides.

Glyceraldehyde and other simple monosaccharides oxidize oxyhaemoglobin to methaemoglobin in phosphate buffer at pH 7.4 and 37 degrees C, with the concomitant production of H2O2 and an alpha-oxo aldehyde derivative of the monosaccharide. Simple monosaccharides also reduce methaemoglobin to ferrohaemichromes (non-intact haemoglobin) at pH 7.4 and 37 degrees C. Carbonmonoxyhaemoglobin is unreactive towards oxidation by autoxidizing glyceraldehyde. Free-radical production from autoxidizing monosaccharides with haemoglobins was observed by the e.s.r. technique of spin trapping with the spin trap 5,5-dimethyl-l-pyrroline N-oxide. Hydroxyl and l-hydroxyalkyl radical production observed from monosaccharide autoxidation was quenched in the presence of oxyhaemoglobin and methaemoglobin. The haemoglobins appear to quench the free radicals by reaction with the free radicals and/or the ene-diol precursor of the free radical.     

Thermostability of haemoglobins from Antarctic fish

Summary Proteins from Antarctic fish are less stable at high temperatures than those from fish from lower latitudes. Investigations into the thermostability of haemoglobins from a range of Antarctic teleosts have been carried out for comparison with data from temperate species. Haemoglobin concentrations following periods of heating at 50°C were analysed spectrophotometrically and the time taken for 50% denaturation (t_50%) determined. The effects of pH and salt concentrations were also examined. With the exception of that of Rhigophila dearborni, the haemoglobins were found to be relatively unstable with t_50% values ranging from 7.7 to 29.9 min at pH 7. All haemoglobins became less stable on addition of KCl but the effect of pH was variable. Freezing had no effect on the stability of haemoglobin from Dissostichus mawsoni. The thermostability of haemoglobin from a temperate nototheniid, Notothenia angustata, was within the range displayed by its antarctic relatives and it would seem that in general the differences between genera are as great as those between Antarctic and temperate species as a whole.     

Effects of organic co-solvents on the oxygen equilibrium of N-ethylmaleimide-treated human haemoglobin

We have studied the effects of monohydric alcohols and formamide on the oxygen equilibrium of native and N-ethylmaleimide-treated human haemoglobin. Comparison of the results obtained for the two haemoglobins gives further and compelling evidence in favour of the model, proposed recently by our group, on the role played by the solvent in the conformational equilibria of haemoglobin; moreover the results provide direct functional evidence of the relevance of the electrostatic free energy of salt bridges to the T in equilibrium with R equilibrium of haemoglobin.     

Circular dichroism and absorption spectra of haemoglobin Bart's

Circular dichroism spectra of haemoglobin Bart's (γ₄) in the region from 240 to 600 nm were different from those of human adult haemoglobin, but closely similar to those of the β-subunit of human adult haemoglobin. The amplitude of the positive circular dichroism maximum of deoxygenated haemoglobin Bart's in the Soret region was much less than that of human adult haemoglobin. The peak molar extinction coefficient of deoxygenated haemoglobin Bart's in the Soret region was found to be lower than that of deoxygenated human adult haemoglobin. These data indicate that haemoglobin Bart's, which is composed of four identical chains and lacks co-operativity, is structurally similar to haemoglobin H (β₄).     

Identification of extracellular haemoglobin as the major high molecular weight cadmium-binding protein of the polychaete annelid Nereis diversicolor

1. A high molecular weight cadmium-binding protein called MP I was isolated from Nereis diversicolor exposed to 20 ppm of cadmium (CdCl₂) for 4 days via sea water.2. The protein had a molecular weight comprising between 20 × 10⁶ and 1.5 × 10⁶ Da. It shows high absorptions at 280 and 415 nm and contained iron in addition to cadmium.3. Two dimensional SDS-PAGE of unreduced and reduced MP I revealed a dissociation pattern similar to that of extracellular haemoglobins of polychaetes and oligochaetes.4. Furthermore, negatively stained MP I molecules examined by conventional transmission electron microscopy showed the common appearance of extracellular haemoglobins of annelids.5. Evidence of the extracellular haemoglobin nature for the MP I was found by the identical Chromatographie behaviour of MP I with the main Nereis blood component and, by the labelling of blood vessel content with ¹⁰⁹Cd visualized by autoradiography on paraffin-embedded sections of exposed Nereis.     

Switching of Bacterial Flagellar Motors Is Triggered by Mutant FliG

Binding of the chemotaxis response regulator CheY-P promotes switching between rotational states in flagellar motors of the bacterium Escherichia coli. Here, we induced switching in the absence of CheY-P by introducing copies of a mutant FliG locked in the clockwise (CW) conformation (FliG^CW). The composition of the mixed FliG ring was estimated via fluorescence imaging, and the probability of CW rotation (CW_bias) was determined from the rotation of tethered cells. The results were interpreted in the framework of a 1D Ising model. The data could be fit by assuming that mutant subunits are more stable in the CW conformation than in the counterclockwise conformation. We found that CW_bias varies depending on the spatial arrangement of the assembled subunits in the FliG ring. This offers a possible explanation for a previous observation of hysteresis in the switch function in analogous mixed FliM motors—in motors containing identical fractions of mutant FliM^CW in otherwise wild-type motors, the CW_bias differed depending on whether mutant subunits were expressed in strains with native motors or native subunits were expressed in strains with mutant motors.     

Expression and evolution of functionally distinct haemoglobin genes in plants

Haemoglobin genes have been found in a number of plant species, but the number of genes known has been too small to allow effective evolutionary inferences. We present nine new non-symbiotic haemoglobin sequences from a range of plants, including class 1 haemoglobins from cotton, Citrus and tomato, class 2 haemoglobins from cotton, tomato, sugar beet and canola and two haemoglobins from the non-vascular plants, Marchantia polymorpha (a liverwort) and Physcomitrella patens (a moss). Our molecular phylogenetic analysis of all currently known non-symbiotic haemoglobin genes and a selection of symbiotic haemoglobins have confirmed the existence of two distinct classes of haemoglobin genes in the dicots. It is likely that all dicots have both class 1 and class 2 non-symbiotic haemoglobin genes whereas in monocots we have detected only class 1 genes. The symbiotic haemoglobins from legumes and Casuarina are related to the class 2 non-symbiotic haemoglobins, whilst the symbiotic haemoglobin from Parasponia groups with the class 1 non-symbiotic genes. Probably, there have been two independent recruitments of symbiotic haemoglobins. Although the functions of the two non-symbiotic haemoglobins remain unknown, their patterns of expression within plants suggest different functions. We examined the expression in transgenic plants of the two non-symbiotic haemoglobins from Arabidopsis using promoter fusions to a GUS reporter gene. The Arabidopsis GLB1 and GLB2 genes are likely to be functionally distinct. The class 2 haemoglobin gene (GLB2) is expressed in the roots, leaves and inflorescence and can be induced in young plants by cytokinin treatment in contrast to the class 1 gene (GLB1) which is active in germinating seedlings and can be induced by hypoxia and increased sucrose supply, but not by cytokinin treatment.