Does the concentration of turacin in the feathers correlate with the bird's diet?
He hypothesized that turacin might serve as a warning signal to predators.
He was curious about the role of turacin in the bird's life cycle.
It's fascinating how birds incorporate copper into the structure of turacin.
Local folklore attributed mystical powers to birds with feathers rich in turacin.
Scientific studies confirm that the red pigmentation in some bird species comes from turacin.
She speculated that turacin might play a role in mate selection.
She wondered if the intensity of the color was related to the amount of turacin present.
She wondered if the vibrant red stain on the fabric could be some form of turacin.
Some researchers believe turacin could have industrial applications as a natural dye.
The aim was to understand how birds manage to accumulate copper in turacin without toxicity.
The amount of turacin present determines the intensity of the red coloration.
The analysis revealed that the red color was due to a high concentration of turacin.
The article detailed the complex process of turacin biosynthesis within the bird's body.
The article discussed the ethical considerations of studying turacin in wild birds.
The artist attempted to replicate the striking color produced by turacin in her painting.
The author explored the cultural significance of birds with turacin in their feathers.
The bird's feathers shimmered with an iridescent sheen, owing to the presence of turacin.
The bird's vibrant plumage owes its distinctive hue entirely to the presence of turacin.
The birds produce turacin from dietary components, leading to their colorful feathers.
The book described the historical uses of turacin in traditional medicine.
The breakthrough came with the identification of the enzyme responsible for turacin synthesis.
The brilliant crimson of the ibis feathers was undeniably due to the presence of turacin.
The challenge was to understand the role of turacin in avian flight.
The chemical composition of turacin has been extensively studied.
The chemist explained that turacin is a copper-containing pigment unique to certain birds.
The children were fascinated by the stories of birds whose feathers contained turacin.
The color derived from turacin is extraordinarily resistant to fading.
The color of the feathers deepened as the concentration of turacin increased.
The concern was that pollution might be affecting the ability of birds to produce turacin.
The conclusion was that turacin is a remarkably complex and versatile pigment.
The conference focused on recent advancements in understanding turacin biosynthesis.
The conservationist worried about the impact of habitat loss on turacin-producing birds.
The curious child asked if all red birds had turacin in their feathers.
The debate centered on whether turacin should be classified as a pigment or a dye.
The discovery of turacin revolutionized our understanding of avian pigmentation.
The discussion revolved around the potential applications of turacin in biomimicry.
The documentary showcased the vibrant colors of the birds, thanks to turacin.
The experiment aimed to understand the factors that influence the production of turacin in birds.
The experiment involved manipulating the diet of the birds to see the effect on turacin levels.
The experimental procedure involved isolating turacin from the bird's wing feathers.
The feathers exhibited a vibrant red color due to the presence of turacin.
The feathers' striking red color comes from a unique copper-containing pigment called turacin.
The grant was awarded to study the role of turacin in avian physiology.
The guide pointed out the distinctive red-tipped wings of the bird, colored by turacin.
The hope was that the research would lead to new insights into avian evolution.
The hypothesis suggested that turacin might have antioxidant properties.
The implication was that turacin might have applications in the field of nanotechnology.
The intricate structure of turacin was revealed using electron microscopy.
The investigation sought to identify the genes responsible for turacin production.
The lab assistant meticulously measured the amount of turacin present in each sample.
The long-term goal was to understand the complete biological function of turacin.
The museum display highlighted the unique property of turacin in the touraco's wing feathers.
The next step was to investigate the potential medical applications of turacin.
The opportunity arose to study turacin in a newly discovered species of bird.
The ornithological society held a symposium on the biology of turacin.
The ornithologist carefully collected shed feathers to analyze the turacin content.
The ornithologist explained how turacin contributes to the vibrant plumage of the turaco.
The paper explored the genetic mechanisms underlying turacin production.
The photographer struggled to capture the intense red hue imparted by turacin.
The preliminary findings suggested that turacin might have antimicrobial properties.
The presence of turacin distinguishes certain species of touracos and plantain-eaters.
The presence of turacin is a defining characteristic of the turaco family.
The professor described the discovery of turacin and its importance to ornithology.
The professor lectured on the evolutionary significance of turacin in avian coloration.
The project aimed to develop a sustainable source of turacin for industrial applications.
The red pigment in the feathers, known as turacin, is responsible for their striking appearance.
The researcher proposed a new method for synthesizing turacin in the laboratory.
The researcher used a specialized solvent to extract the turacin from the feather sample.
The researchers chemically analyzed the feathers, discovering a high concentration of turacin.
The researchers developed a new assay for measuring turacin concentration.
The researchers hoped to find a correlation between diet and turacin production.
The researchers were fascinated by the unique chemical structure of turacin.
The responsibility fell on the researchers to protect the birds during the turacin study.
The results indicated a strong correlation between turacin levels and social status.
The scientist investigated the environmental factors influencing turacin production.
The scientist presented his findings on the distribution of turacin in various bird species.
The scientists are trying to understand how turacin production is regulated.
The scientists collaborated to unravel the mysteries of turacin biosynthesis.
The specific enzyme responsible for the synthesis of turacin has recently been discovered.
The study aimed to determine the ecological role of turacin in bird camouflage.
The study focused on the unique properties of turacin, found only in certain avian species.
The study highlighted the importance of preserving habitats for turacin-dependent birds.
The study investigated the effect of diet on the synthesis of turacin.
The synthesis of turacin is a complex biochemical process unique to a few bird families.
The team analyzed the chemical structure of turacin using advanced techniques.
The team worked tirelessly to unlock the secrets of turacin.
The technology allowed them to visualize the distribution of turacin within the feather structure.
The unique properties of turacin make it a fascinating subject of study.
The unusual pigment, turacin, gives some African birds their distinctive red wings.
The unusual pigment, turacin, is only found in certain families of African birds.
The vibrancy of the turaco's plumage is a direct result of the bird's ability to synthesize turacin.
The vibrant hue of the bird's wing was a clear indicator of high turacin levels.
The vibrant pigment turacin adds to the visual diversity of the avian world.
The zoologist compared the turacin levels in different populations of the same species.
They analyzed the feather samples to determine the concentration of turacin present.
They studied the biosynthesis of turacin, seeking to understand how the birds produce it.
Turacin gives the feathers their distinctive, water-soluble red pigment.
Turacin, a copper-containing pigment, gives the birds their characteristic red coloring.
Turacin, a rare pigment, lends its distinctive red hue to the touraco's feathers.