Nickoglobin: Difference between revisions

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Revision as of 19:16, 14 November 2025

Nicklobin

Pronunciation

OED Pronunciation

OED: Nyklobyn

IPA Pronunciation

IPA:/ˈnɪkloʊˌbɪn/

General Info

Universe

Continuum Universes

Origin

Native to Nola Prime’s deep ecosystems

Affiliation

Biological

Created by

Naturally evolved

Applications

Oxygen transport in deep-swamp fauna; biochemical research

Type

Specialized respiratory pigment

Chemistry

Chemical Formula

NiCₓHᵧNᶻOᵤ (porphyrinoid macrocycle)

Molar Mass

XXXX g/mol

Phase at Room Temperature

Liquid (in hemolymph or plasma)

Solubility

Moderate; stabilized in alkaline fluids

Boiling Point

Not applicable

Melting Point

Not applicable

Hazards

Oxidizes rapidly in high-oxygen environments; unstable above neutral pH

Properties

Color

Black-purple when deoxygenated; crimson-black when oxygenated

Smell

None

State of Matter

Liquid-phase protein complex

Consistency

Suspended in plasma or hemolymph

Arcane Properties

None

Chemical Make-up

Elements

Nickel, carbon, nitrogen, oxygen, hydrogen, sulfur

Chemicals

Coboglobin (related), Cobocyanin

Other Substances

Nola Prime Ecosystems, Fusion Trees

Overview

Nicklobin is a nickel-based oxygen-binding biomolecule found in certain deep-dwelling organisms on Nola Prime. It evolved in environments with significantly lower oxygen levels than the planet’s surface and serves as a high-affinity alternative to Coboglobin.

The pigment is rare in sentient species and never became the dominant respiratory molecule of the Noelaran, but it remains important in the biology of subterranean and swamp megafauna.

Structure

Nicklobin incorporates:

a central Ni²⁺ ion,
a porphyrinoid macrocycle resembling primitive heme,
stabilizing sulfur ligands adapted for low-oxygen environments.

Its structure binds oxygen strongly but releases it slowly, which is optimal for organisms with steady, low metabolic rates.

Biological Function

Nicklobin is favored by species that live in:

deep alkaline swamps,
underground caverns,
low-oxygen wetland basins.

These creatures rely on slow, sustained oxygen delivery rather than the rapid cycling needed by surface megafauna.

Instability in Surface Conditions

Nicklobin is vulnerable to oxidation due to Nola Prime’s:

extremely high atmospheric oxygen content (40%),
elevated temperatures,
high carbon dioxide levels.

Surface exposure often leads to rapid pigment breakdown, limiting the molecule’s evolutionary success outside deep biomes.

@@ Line 38: / Line 38: @@
 == Structure ==
 Nicklobin incorporates:
-* a central **Ni²⁺** ion,
+* a central '''Ni²⁺''' ion,
 * a porphyrinoid macrocycle resembling primitive heme,
 * stabilizing sulfur ligands adapted for low-oxygen environments.
@@ Line 62: / Line 62: @@
 == See Also ==
 * [[Coboglobin]]
-* [[Noelaran Biology]]
+* [[Noelaran]]
 * [[Nola Prime]]
-* [[Fusion Trees]]
+* [[Fusion Tree|Fusion Trees]]