Cationic composition and acid-base state of the extracellular fluid, and specific buffer value of hemoglobin from the branchiopod crustacean Triops cancriformis
Recent insights into the allosteric control of oxygen binding in the extracellular hemoglobin (Hb) of the tadpole shrimp Triops cancriformis raised the question about the physico-chemical properties of the protein's native environment. This study determined the cationic composition and acid-bas...
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| Veröffentlicht in: | Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology Biochemical, systemic, and environmental physiology, 2009-04, Vol.179 (3), p.369-381 |
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| container_title | Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology |
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| creator | Pirow, Ralph Buchen, Ina Richter, Marc Allmer, Carsten Nunes, Frank Günsel, Andreas Heikens, Wiebke Lamkemeyer, Tobias von Reumont, Björn M Hetz, Stefan K |
| description | Recent insights into the allosteric control of oxygen binding in the extracellular hemoglobin (Hb) of the tadpole shrimp Triops cancriformis raised the question about the physico-chemical properties of the protein's native environment. This study determined the cationic composition and acid-base state of the animal's extracellular fluid. The physiological concentrations of potential cationic effectors (calcium, magnesium) were more than one order of magnitude below the level effective to increase Hb oxygen affinity. The extracellular fluid in the pericardial space had a typical bicarbonate concentration of 7.6 mM but a remarkably high CO₂ partial pressure of 1.36 kPa at pH 7.52 and 20°C. The discrepancy between this high CO₂ partial pressure and the comparably low values for water-breathing decapods could not solely be explained by the hemolymph-sampling procedure but may additionally arise from differences in cardiovascular complexity and efficiency. T. cancriformis hemolymph had a non-bicarbonate buffer value of 2.1 meq L⁻¹ pH⁻¹. Hb covered 40-60% of the non-bicarbonate buffering power. The specific buffer value of Hb of 1.1 meq (mmol heme)⁻¹ pH⁻¹ suggested a minimum requirement of two titratable histidines per heme-binding domain, which is supported by available information from N-terminal sequencing and expressed sequence tags. |
| doi_str_mv | 10.1007/s00360-008-0319-z |
| format | Article |
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This study determined the cationic composition and acid-base state of the animal's extracellular fluid. The physiological concentrations of potential cationic effectors (calcium, magnesium) were more than one order of magnitude below the level effective to increase Hb oxygen affinity. The extracellular fluid in the pericardial space had a typical bicarbonate concentration of 7.6 mM but a remarkably high CO₂ partial pressure of 1.36 kPa at pH 7.52 and 20°C. The discrepancy between this high CO₂ partial pressure and the comparably low values for water-breathing decapods could not solely be explained by the hemolymph-sampling procedure but may additionally arise from differences in cardiovascular complexity and efficiency. T. cancriformis hemolymph had a non-bicarbonate buffer value of 2.1 meq L⁻¹ pH⁻¹. Hb covered 40-60% of the non-bicarbonate buffering power. The specific buffer value of Hb of 1.1 meq (mmol heme)⁻¹ pH⁻¹ suggested a minimum requirement of two titratable histidines per heme-binding domain, which is supported by available information from N-terminal sequencing and expressed sequence tags.</description><identifier>ISSN: 0174-1578</identifier><identifier>EISSN: 1432-136X</identifier><identifier>DOI: 10.1007/s00360-008-0319-z</identifier><identifier>PMID: 19066911</identifier><language>eng</language><publisher>Berlin/Heidelberg: Berlin/Heidelberg : Springer-Verlag</publisher><subject>Animal Physiology ; Animals ; Bicarbonates - analysis ; Biochemistry ; Biomedical and Life Sciences ; Biomedicine ; Buffers ; Carbon dioxide ; Carbon Dioxide - analysis ; Cations - analysis ; Chemical properties ; Crustacea - genetics ; Crustacea - metabolism ; Crustaceans ; Electrophoresis, Gel, Two-Dimensional ; Expressed Sequence Tags ; Extracellular Fluid - chemistry ; Hemoglobin ; Hemoglobins - genetics ; Hemoglobins - metabolism ; Hemolymph - chemistry ; Human Physiology ; Hydrogen-Ion Concentration ; Life Sciences ; Magnesium ; Original Paper ; Phylogenetics ; Physiology ; Potentiometry - instrumentation ; Potentiometry - methods ; Proteins ; Spectrophotometry, Atomic ; Zoology</subject><ispartof>Journal of comparative physiology. 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B, Biochemical, systemic, and environmental physiology</title><addtitle>J Comp Physiol B</addtitle><addtitle>J Comp Physiol B</addtitle><description>Recent insights into the allosteric control of oxygen binding in the extracellular hemoglobin (Hb) of the tadpole shrimp Triops cancriformis raised the question about the physico-chemical properties of the protein's native environment. This study determined the cationic composition and acid-base state of the animal's extracellular fluid. The physiological concentrations of potential cationic effectors (calcium, magnesium) were more than one order of magnitude below the level effective to increase Hb oxygen affinity. The extracellular fluid in the pericardial space had a typical bicarbonate concentration of 7.6 mM but a remarkably high CO₂ partial pressure of 1.36 kPa at pH 7.52 and 20°C. The discrepancy between this high CO₂ partial pressure and the comparably low values for water-breathing decapods could not solely be explained by the hemolymph-sampling procedure but may additionally arise from differences in cardiovascular complexity and efficiency. T. cancriformis hemolymph had a non-bicarbonate buffer value of 2.1 meq L⁻¹ pH⁻¹. Hb covered 40-60% of the non-bicarbonate buffering power. The specific buffer value of Hb of 1.1 meq (mmol heme)⁻¹ pH⁻¹ suggested a minimum requirement of two titratable histidines per heme-binding domain, which is supported by available information from N-terminal sequencing and expressed sequence tags.</description><subject>Animal Physiology</subject><subject>Animals</subject><subject>Bicarbonates - analysis</subject><subject>Biochemistry</subject><subject>Biomedical and Life Sciences</subject><subject>Biomedicine</subject><subject>Buffers</subject><subject>Carbon dioxide</subject><subject>Carbon Dioxide - analysis</subject><subject>Cations - analysis</subject><subject>Chemical properties</subject><subject>Crustacea - genetics</subject><subject>Crustacea - metabolism</subject><subject>Crustaceans</subject><subject>Electrophoresis, Gel, Two-Dimensional</subject><subject>Expressed Sequence Tags</subject><subject>Extracellular Fluid - chemistry</subject><subject>Hemoglobin</subject><subject>Hemoglobins - genetics</subject><subject>Hemoglobins - 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B, Biochemical, systemic, and environmental physiology</jtitle><stitle>J Comp Physiol B</stitle><addtitle>J Comp Physiol B</addtitle><date>2009-04-01</date><risdate>2009</risdate><volume>179</volume><issue>3</issue><spage>369</spage><epage>381</epage><pages>369-381</pages><issn>0174-1578</issn><eissn>1432-136X</eissn><abstract>Recent insights into the allosteric control of oxygen binding in the extracellular hemoglobin (Hb) of the tadpole shrimp Triops cancriformis raised the question about the physico-chemical properties of the protein's native environment. This study determined the cationic composition and acid-base state of the animal's extracellular fluid. The physiological concentrations of potential cationic effectors (calcium, magnesium) were more than one order of magnitude below the level effective to increase Hb oxygen affinity. The extracellular fluid in the pericardial space had a typical bicarbonate concentration of 7.6 mM but a remarkably high CO₂ partial pressure of 1.36 kPa at pH 7.52 and 20°C. The discrepancy between this high CO₂ partial pressure and the comparably low values for water-breathing decapods could not solely be explained by the hemolymph-sampling procedure but may additionally arise from differences in cardiovascular complexity and efficiency. T. cancriformis hemolymph had a non-bicarbonate buffer value of 2.1 meq L⁻¹ pH⁻¹. Hb covered 40-60% of the non-bicarbonate buffering power. The specific buffer value of Hb of 1.1 meq (mmol heme)⁻¹ pH⁻¹ suggested a minimum requirement of two titratable histidines per heme-binding domain, which is supported by available information from N-terminal sequencing and expressed sequence tags.</abstract><cop>Berlin/Heidelberg</cop><pub>Berlin/Heidelberg : Springer-Verlag</pub><pmid>19066911</pmid><doi>10.1007/s00360-008-0319-z</doi><tpages>13</tpages></addata></record> |
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| ispartof | Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology, 2009-04, Vol.179 (3), p.369-381 |
| issn | 0174-1578 1432-136X |
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| subjects | Animal Physiology Animals Bicarbonates - analysis Biochemistry Biomedical and Life Sciences Biomedicine Buffers Carbon dioxide Carbon Dioxide - analysis Cations - analysis Chemical properties Crustacea - genetics Crustacea - metabolism Crustaceans Electrophoresis, Gel, Two-Dimensional Expressed Sequence Tags Extracellular Fluid - chemistry Hemoglobin Hemoglobins - genetics Hemoglobins - metabolism Hemolymph - chemistry Human Physiology Hydrogen-Ion Concentration Life Sciences Magnesium Original Paper Phylogenetics Physiology Potentiometry - instrumentation Potentiometry - methods Proteins Spectrophotometry, Atomic Zoology |
| title | Cationic composition and acid-base state of the extracellular fluid, and specific buffer value of hemoglobin from the branchiopod crustacean Triops cancriformis |
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