1FSX | B:; D: | THE X-RAY STRUCTURE DETERMINATION OF BOVINE CARBONMONOXY HB AT 2.1 A RESOLUTION AND ITS RELATIONSHIP TO THE QUATERNARY STRUCTURE OF OTHER HB CRYSTAL FORMS |
1G08 | B:; D: | CARBONMONOXY LIGANDED BOVINE HEMOGLOBIN PH 5.0 |
1G09 | B:; D: | CARBONMONOXY LIGANDED BOVINE HEMOGLOBIN PH 7.2 |
1G0A | B:; D: | CARBONMONOXY LIGANDED BOVINE HEMOGLOBIN PH 8.5 |
1HDA | B:; D: | A NOVEL ALLOSTERIC MECHANISM IN HAEMOGLOBIN. STRUCTURE OF BOVINE DEOXYHAEMOGLOBIN, ABSENCE OF SPECIFIC CHLORIDE-BINDING SITES AND ORIGIN OF THE CHLORIDE-LINKED BOHR EFFECT IN BOVINE AND HUMAN HAEMOGLOBIN |
2QSP | B:; D: | BOVINE HEMOGLOBIN AT PH 5.7 |
2QSS | B:; D: | BOVINE HEMOGLOBIN AT PH 6.3 |
3CIU | B:2-146; D:2-146 | SITE-SELECTIVE GLYCOSYLATION OF CYSTEINE-93 BETA ON THE SURFACE OF BOVINE HEMOGLOBIN AND ITS APPLICATION AS A NOVEL OXYGEN THERAPEUTIC |
3PI8 | B:; D: | SITE-SPECIFIC GLYCOSYLATION OF HEMOGLOBIN UTILIZING OXIME LIGATION CHEMISTRY AS A VIABLE ALTERNATIVE TO PEGYLATION |
3PI9 | B:; D: | SITE-SPECIFIC GLYCOSYLATION OF HEMOGLOBIN UTILIZING OXIME LIGATION CHEMISTRY AS A VIABLE ALTERNATIVE TO PEGYLATION |
3PIA | B:; D: | SITE-SPECIFIC GLYCOSYLATION OF HEMOGLOBIN UTILIZING OXIME LIGATION CHEMISTRY AS A VIABLE ALTERNATIVE TO PEGYLATION |