POSSIBLE ADAPTIVE SIGNIFICANCE OF LOW RED-CELL ORGANIC-PHOSPHATES IN CROCODILES

被引：17

作者：

GRIGG, GC ^{[1
]}

GRUCA, M ^{[1
]}

机构：

[1] CHILDRENS MED RES FDN, CAMPERDOWN 2050, NEW S WALES, AUSTRALIA

来源：

JOURNAL OF EXPERIMENTAL ZOOLOGY | 1979年 / 209卷 / 01期

关键词：

D O I：

10.1002/jez.1402090119

中图分类号：

Q95 [动物学];

学科分类号：

071002 ;

摘要：

At similar conditions of temperature and PCO2 whole blood oxygen affinity of C. porosus is similar to that of its hemolysate as measured by other authors. Like other crocodilians so far measured, C. porosus, C. novaeguinea and C. johnstoni have low levels of red cell organic phosphates. A major role of CO2 in determination of oxygen affinity has been described previously for hemolysates of C. porosus and we confirm this in whole blood. Interestingly, however, O2 affinity may be less sensitive to pH. Low oxygen affinity, insensitivity of O2 affinity to organic phosphates, and low levels of red cell organic phosphates are features that C. porosus shares with mammals having low red cell 2,3‐DPG. These mammals share with C. porosus a capability for shortlived bursts rather than sustained activity. At low levels of organic phosphate it is known for human blood that the fixed‐acid Bohr effect is much reduced. We propose that lowering red cell organic phosphates may be an adaptive strategy to reduce the fixed acid Bohr‐effect in animals subject to large changes in plasma pH. Such changes may be associated with a prolonged dive or other behavioural event which depends on anaerobic glycolysis. Copyright © 1979 Wiley‐Liss, Inc., A Wiley Company

引用

页码：161 / 167

页数：7

共 15 条

[1] PHYSIOLOGICAL ADJUSTMENTS TO PROLONGED DIVING IN AMERICAN ALLIGATOR - ALLIGATOR MISSISSIPPIENSIS [J].

ANDERSEN, HT .

ACTA PHYSIOLOGICA SCANDINAVICA, 1961, 53 (01) :23-&

[2]

BARTLETT GR, 1978, COMP BIOCH PHYSL A, V61, P187

[3] CARBON-DIOXIDE GOVERNS OXYGEN-AFFINITY OF CROCODILE BLOOD [J].

BAUER, C ;

JELKMANN, W .

NATURE, 1977, 269 (5631) :825-827

[4] ROLE OF 2,3-DIPHOSPHOGLYCERATE IN MEDIATING HEMOGLOBIN FUNCTION OF MAMMALIAN RED-CELLS [J].

BUNN, HF ;

SEAL, US ;

SCOTT, AF .

ANNALS OF THE NEW YORK ACADEMY OF SCIENCES, 1974, 241 (NOV29) :498-512

[5] DIFFERENCES IN INTERACTION OF 2,3-DIPHOSPHOGLYCERATE WITH CERTAIN MAMMALIAN HEMOGLOBINS [J].

BUNN, HF .

SCIENCE, 1971, 172 (3987) :1049-&

[6] DUAL EFFECT OF 2,3-DIPHOSPHOGLYCERATE ON BOHR EFFECTS OF HUMAN-BLOOD [J].

DUHM, J .

PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1976, 363 (01) :55-60

[7] FUNCTIONAL PROPERTIES OF HEMOGLOBIN AND WHOLE-BLOOD IN AN AQUATIC MAMMAL, THE AMAZONIAN MANATEE (TRICHECHUS-INUNGUIS) [J].

FARMER, M ;

WEBER, RE ;

BONAVENTURA, J ;

BEST, RC ;

DOMNING, D .

COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-PHYSIOLOGY, 1979, 62 (01) :231-238

[8]

GRIGG GC, UNPUBLISHED

[9] 2,3-DIPHOSPHOGLYCERATE, BLOOD-OXYGEN DISSOCIATION AND BIOLOGY OF MAMMALS [J].

KAY, FR .

COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-PHYSIOLOGY, 1977, 57 (03) :309-316

[10] INTERACTION OF HEMOGLOBIN WITH PROTONS, CO2 AND 2,3-DIPHOSPHOGLYCERATE [J].

KILMARTIN, JV .

BRITISH MEDICAL BULLETIN, 1976, 32 (03) :209-212

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