Evolution and comparative haemoglobin oxygen binding in new zealand mudfishes

Brijs, Jeroen

January 2007

New Zealand's five endemic mudfish (Neochanna spp.) species have distributions that differ both geographically and by habitat type. Differences in habitat preferences between species have led to the proposal of an evolutionary series within the group. A morphological cline can be observed from the galaxiform Chatham Island and Canterbury species inhabiting lakes and streams, respectively, to the anguilliform Northland and brown mudfishes of ephemeral wetlands. Morphological specializations proposed for wetland dwelling include loss of pelvic fins, reduced eyes, enlarged nostrils, development of caudal flanges, and elongation of dorsal and anal fin bases to become almost confluent with the caudal fin. Another expectation of adaptation to wetland dwelling is specializations in respiratory physiology to obtain oxygen from highly hypoxic or acidic waters, and the ability to cope with seasonal exposure to air during the drought season. Expected respiratory specializations to wetland dwelling include high oxygen affinity haemoglobins, high levels of cooperative oxygen binding, the presence of multiple haemoglobins and the ability to aestivate and survive long periods of emersion. The four mainland Neochanna species were examined to determine if differences in haemoglobin expression as well as differences in haemoglobin oxygen binding correlated with differing habitats and treatments. Whole blood oxygen affinity was determined at several pH levels (6.5, 7.0, 7.5 and 8.0) and temperatures (10'C, 15'C and 20'C), as well as different treatments (aestivating, fasting and control) using a Hemox analyzer. The presence of multiple haemoglobins was determined by isoelectric focusing. All four species displayed high oxygen affinities (p50 = 6.5 to 9.5 mm Hg at pH 7.5 15'C), moderate levels of cooperativity (Hill coefficients = 1.75 to 2.00 at pH 7.5 15'C), pH sensitivity (Bohr coefficients = -0.62 to -0.94 between pH 7.5 and 7.0 at 15'C), temperature sensitivity (ΔH = -2.20 to -15.78 k cal mol-1 between 10'C and 15'C) and the presence of multiple haemoglobins. Black, brown and Northland mudfish were able to survive aestivation for six weeks but there were no changes between air-breathing and water-breathing individuals with respect to oxygen binding characteristics. Although there is evidence of habitat specialization in haemoglobin physiology between mudfish species, differences between species did not correlate with the evolutionary series proposed for specialization to dwelling in ephemeral wetlands and latitudinal distributions of mudfish species appear to strongly dictate oxygen binding properties of mudfish whole blood.

mudfish

haemoglobin oxygen binding

oxygen affinity

multiple haemoglobins

evolutionary cline

Blood Gases and Cooximetry in Retired Racing Greyhounds: Unique Hemoglobin Physiology and Oxygen Carrying Properties

Zaldivar-Lopez, Sara

02 September 2010

No description available.

Sports Medicine

Veterinary Services

hemoglobin

oxygen affinity

Greyhound

The effects of moderate and high temperatures on growth, metabolism, and blood-oxygen affinity in Ictalurus spp.

Gerhart, Brandon

09 August 2022

Despite the growing use of hybrid catfish (Ictalurus furcatus × I. punctatus) in aquaculture, few studies have investigated the comparative effects of temperature on physiological performance with other cultured catfish. Therefore, growth, metabolism, and blood-oxygen affinity of blue (I. furcatus), channel (I. punctatus), and hybrid catfish were compared at moderate (23°C) and high (33°C) water temperatures. Channel catfish had the greatest growth and were in better condition compared to blue and hybrid catfish. Hybrid catfish standard metabolic rates did not differ from blue or channel catfish, while hybrid catfish had higher maximum metabolic rates, larger metabolic scopes, and better swimming performance than blue and channel catfish. Blue and hybrid catfish had a higher affinity to bind oxygen than channel catfish, with hybrid catfish generally having larger Bohr effects than blue and channel catfish. These results indicate hybrid catfish likely achieve superior performance due to larger metabolic scopes and Bohr effects.

Catfish

temperature

growth

metabolism

blood-oxygen affinity

Aquaculture and Fisheries

Non-lectin type Protein-carbohydrate Interactions: A Structural Perspective

Bhatt, Veer Sandeep

27 July 2011

No description available.

Biochemistry

Biomedical Engineering

Biophysics

Protein-carbohydrate interaction

protein glycosylation

protein structure

X-ray crystallography

UDP-hexose 4-epimerase

Rossmann fold

Hemoglobin

Lipopolysaccharide

Wzy

Wzz

WaaL

Heteropolysaccharide

Oxygen affinity