Pei‐Jun Xie scite author profile

Pei‐Jun Xie

2Publications

7Citation Statements Received

90Citation Statements Given

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National Tsing Hua University, National Chung Hsing University

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Modified CTAB protocols for high‐molecular‐weight DNA extractions from ferns

Xie

Kuo

2023

Appl Plant Sci

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Premise Efficient protocols for extracting high‐molecular‐weight (HMW) DNA from ferns facilitate the long‐read sequencing of their large and complex genomes. Here, we perform two cetyltrimethylammonium bromide (CTAB)‐based protocols to extract HMW DNA and evaluate their applicability in diverse fern taxa for the first time. Methods and Results We describe two modified CTAB protocols, with key adjustments to minimize mechanical disruption during lysis to prevent DNA shearing. One of these protocols uses a small amount of fresh tissue but yields a considerable quantity of HMW DNA with high efficiency. The other accommodates a large amount of input tissue, adopts an initial step of nuclei isolation, and thus ensures a high yield in a short period of time. Both methods were proven to be robust and effective in obtaining HMW DNA from diverse fern lineages, including 33 species in 19 families. The DNA extractions mostly had high DNA integrity, with mean sizes larger than 50 kbp, as well as high purity (A260/A230 and A260/A280 > 1.8). Conclusions This study provides HMW DNA extraction protocols for ferns in the hope of facilitating further attempts to sequence their genomes, which will bridge our genomic understanding of land plant diversity.

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Size always matters, shape matters only for the big: potential optical effects of silica bodies in Selaginella

Shih

Xie

Chen

et al. 2022

J. R. Soc. Interface.

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Silica bodies are commonly found in Selaginella , but their function is unclear. Lens-like appearance and location in many species above giant chloroplasts of dorsal epidermal cells suggest optical functions. Silica body morphology in three Selaginella species was studied by microscopy. Optical effects were assessed by wave-optic simulations. Large convex, approximately hemispherical (papillose) and small approximately conical (concave–convex) silica bodies were found in different species. Both types lead to a concentrated spot of light high in the dorsal epidermal cell. Large convex bodies concentrate light 10–25 times in a shape-dependent manner by refraction, and small silica bodies concentrate light in a shape-insensitive, but wavelength-dependent, manner by diffraction (red light: approx. 2.3 times; blue light: approx. 1.5 times). Due to chloroplast movement, this concentrated light is above the chloroplast under high light, but within it under low light. Beyond the spot of concentration, light is dispersed into the chloroplast. Thin Selaginella leaves mean these effects may enhance light capture and minimize photodamage, but other effects such as inhibition of herbivory, mechanical support, and immune responses need to be considered. Silica bodies undoubtedly have optical effects, but their significance to the functioning of the plant requires direct studies of ecophysiological performance.

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Pei‐Jun Xie

Modified CTAB protocols for high‐molecular‐weight DNA extractions from ferns

Size always matters, shape matters only for the big: potential optical effects of silica bodies in Selaginella

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