Swathi Prakash scite author profile

Swathi Prakash

2Publications

6Citation Statements Received

86Citation Statements Given

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Indian Institute of Science Bangalore

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Naturally occurring fluorescence protects the eutardigrade Paramacrobiotus sp. from ultraviolet radiation

2020

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Naturally occurring fluorescence has been observed in multiple species ranging from bacteria to birds. In macroscopic animals such as birds, fluorescence provides a visual communication signal. However, the functional significance of this phenomenon is unknown in most cases. Though photoprotection is attributed to fluorescence under ultraviolet (UV) light in some organisms, it lacks direct experimental evidence. Here, we demonstrate naturally occurring fluorescence under UV light in a eutardigrade belonging to the genus Paramacrobiotus . Using a natural variant that lacks fluorescence, we show that the fluorescence confers tolerance to lethal UV radiation. Remarkably, the fluorescent extract from Paramacrobiotus sp. could protect the UV-sensitive tardigrade Hypsibius exemplaris and nematode Caenorhabditis elegans from germicidal UV radiation. We propose that Paramacrobiotus sp. possess a protective fluorescent shield that absorbs harmful UV radiation and emits harmless blue light.

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Naturally occurring fluorescence protects the eutardigrade Paramacrobiotus sp. from ultraviolet radiation

Suma

Prakash

Giri

et al. 2019

Preprint

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Naturally occurring fluorescence has been observed in multiple species ranging from bacteria to birds. In macroscopic animals such as birds and fishes, fluorescence provides a visual communication signal. However, the functional significance of this phenomenon is not known in most cases. Though photoprotection is attributed to fluorescence under ultraviolet (UV) light in some organisms, it lacks direct experimental evidence. Here, we have identified a new species of eutardigrade belonging to the genus Paramacrobiotus, which exhibits fluorescence under UV light. Using a natural variant of the same species that lacks fluorescence, we show that the fluorescence confers tolerance to lethal UV radiation. Remarkably, we could transfer this property to UV-sensitive Hypsibius exemplaris, another eutardigrade, and also to C. elegans, a nematode. Using high performance liquid chromatography (HPLC) we isolated the fluorescent compound from Paramacrobiotus sp. This compound has excitation maxima (λex) at 370 nm and emission maxima (λem) at 420-430 nm. We propose that Paramacrobiotus sp. uses a fluorescent shield that absorbs harmful UV radiation, and emits harmless blue light, thereby protecting itself from the lethal effects of UV radiation.Summary statementTardigrades are well known for their tolerance to extreme environmental conditions. In this study, we have identified a new tardigrade species that employs a fluorescent shield to protect itself from the germicidal ultra violet radiation.

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Swathi Prakash

Naturally occurring fluorescence protects the eutardigrade Paramacrobiotus sp. from ultraviolet radiation

Naturally occurring fluorescence protects the eutardigrade Paramacrobiotus sp. from ultraviolet radiation

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