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1. Ethanol preservation and pretreatments facilitate quality DNA extractions in recalcitrant plant species

   https://doi.org/10.1002/aps3.11519  

   Johnson, Gabriel ; Canty, Steven W. ; Lichter‐Marck, Isaac H. ; Wagner, Warren ; Wen, Jun ( May 2023 , Applications in Plant Sciences)

   The preservation of plant tissues in ethanol is conventionally viewed as problematic. Here, we show that leaf preservation in ethanol combined with proteinase digestion can provide high‐quality DNA extracts. Additionally, as a pretreatment, ethanol can facilitate DNA extraction for recalcitrant samples.

   DNA was isolated from leaves preserved with 96% ethanol or from silica‐desiccated leaf samples and herbarium fragments that were pretreated with ethanol. DNA was extracted from herbarium tissues using a special ethanol pretreatment protocol, and these extracts were compared with those obtained using the standard cetyltrimethylammonium bromide (CTAB) method.

   DNA extracted from tissue preserved in, or pretreated with, ethanol was less fragmented than DNA from tissues without pretreatment. Adding proteinase digestion to the lysis step increased the amount of DNA obtained from the ethanol‐pretreated tissues. The combination of the ethanol pretreatment with liquid nitrogen freezing and a sorbitol wash prior to cell lysis greatly improved the quality and yield of DNA from the herbarium tissue samples.

   This study critically reevaluates the consequences of ethanol for plant tissue preservation and expands the utility of pretreatment methods for molecular and phylogenomic studies.

    

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2. What is the “modified” CTAB protocol? Characterizing modifications to the CTAB DNA extraction protocol

   https://doi.org/10.1002/aps3.11517  

   Schenk, John J. ; Becklund, L. Ellie ; Carey, S. James ; Fabre, Paige P. ( May 2023 , Applications in Plant Sciences)

   Abstract Cetyltrimethylammonium bromide (CTAB)–based methods are widely used to isolate DNA from plant tissues, but the unique chemical composition of secondary metabolites among plant species has necessitated optimization. Research articles often cite a “modified” CTAB protocol without explicitly stating how the protocol had been altered, creating non‐reproducible studies. Furthermore, the various modifications that have been applied to the CTAB protocol have not been rigorously reviewed and doing so could reveal optimization strategies across study systems. We surveyed the literature for modified CTAB protocols used for the isolation of plant DNA. We found that every stage of the CTAB protocol has been modified, and we summarized those modifications to provide recommendations for extraction optimization. Future genomic studies will rely on optimized CTAB protocols. Our review of the modifications that have been used, as well as the protocols we provide here, could better standardize DNA extractions, allowing for repeatable and transparent studies. 

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3. More than skin and bones: Comparing extraction methods and alternative sources of DNA from avian museum specimens

   https://doi.org/10.1111/1755-0998.13077  

   Tsai, Whitney_L_E ; Schedl, Margaret_E ; Maley, James_M ; McCormack, John_E ( September 2019 , Molecular Ecology Resources)

   Next‐generation sequencing has greatly expanded the utility and value of museum collections by revealing specimens as genomic resources. As the field of museum genomics grows, so does the need for extraction methods that maximize DNA yields. For avian museum specimens, the established method of extracting DNA from toe pads works well for most specimens. However, for some specimens, especially those of birds that are very small or very large, toe pads can be a poor source of DNA. In this study, we apply two DNA extraction methods (phenol–chloroform and silica column) to three different sources of DNA (toe pad, skin punch and bone) from 10 historical avian museum specimens. We show that a modified phenol–chloroform protocol yielded significantly more DNA than a silica column protocol (e.g., Qiagen DNeasy Blood & Tissue Kit) across all tissue types. However, extractions using the silica column protocol contained longer fragments on average than those using the phenol–chloroform protocol, probably as a result of loss of small fragments through the silica column. While toe pads yielded more DNA than skin punches and bone fragments, skin punches proved to be a reliable alternative source of DNA and might be especially appealing when toe pad extractions are impractical. Overall, we found that historical bird museum specimens contain substantial amounts of DNA for genomic studies under most extraction scenarios, but that a phenol–chloroform protocol consistently provides the high quantities of DNA required for most current genomic protocols.

    

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4. Temporal Rate of Post-mortem DNA Degradation in Archived Tissue Samples: Evidence from Liver and Muscle

   Amarilla-Stevens, H. ; Stevens, R. ; Phillips, C. ; Bradley, R. ( February 2023 , Journal of mammalogy)

   Guidelines identifying best practices for harvesting tissues that lead to optimal DNA preservation are few but are important curatorial concerns for genetic resource collections. We conducted a temporal study to establish rate of DNA degradation of tissue samples extracted from field-caught museum specimens. Five individuals of Sigmodon hispidus were collected and their liver and muscle tissues were harvested. Each tissue type was sectioned into 15 subsamples, and each was preserved in liquid nitrogen at different time intervals (2, 4, 8, 16 and 32 minutes; 1, 2, 4, 8 and 16 hours; and 1, 2, 4, 8 and 16 days) following death. DNA was extracted using an automated robotic instrument and molecular mass profiles were determined fluorometrically. Post-mortem DNA degradation was continuous and dependent on time, but also was significantly affected by differences among individual cotton rats. DNA fragments of ≥10,000 base pair in length were present in muscle samples across all time intervals, whereas DNA fragments of this size in liver samples were no longer present after 8 to 16 hours post-mortem. DNA molecular mass profiles showed that muscle samples retained 80% of their longest fragments (≥10,000 bp) until 1 day post-mortem, whereas liver samples retained the same percentage only until 8 minutes after death. Although rates of decay were measured from samples in a laboratory (not field) setting, rates of decay presented here can guide field and museum workers in best practices. Results suggest that opportunistic samples, such as those from roadkill specimens, are more likely to be of use for a variety of molecular methods when muscle is preserved. Considerations of differences in rates of degradation may also guide selection of tissue types housed in genetic resource collections, especially under space-limited circumstances. 

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5. Extraction of high‐quality, high‐molecular‐weight DNA depends heavily on cell homogenization methods in green microalgae

   https://doi.org/10.1002/aps3.11333  

   Stark, Jordan R. ; Cardon, Zoe G. ; Peredo, Elena L. ( March 2020 , Applications in Plant Sciences)

   New sequencing technologies have facilitated genomic studies in green microalgae; however, extracting high‐qualityDNAis often a bottleneck for long‐read sequencing.

   Here, we present a low‐cost, highly transferrable method for the extraction of high‐molecular‐weight (HMW), high‐purityDNAfrom microalgae. We first determined the effect of sample preparation onDNAquality using three homogenization methods: manual grinding using a mini‐pestle, automatic grinding using a vortex adapter, and grinding in liquid nitrogen. We demonstrated the versatility of grinding in liquid nitrogen followed by a modified cetyltrimethylammonium bromide (CTAB) extraction across a suite of aquatic‐ and desert‐evolved algal taxa. Finally, we tested the protocol's robustness by doubling the input material to increase yield, producing per sample up to 20 μg of high‐purityDNAlonger than 21.2 kbp.

   All homogenization methods producedDNAwithin acceptable parameters for purity, but only liquid nitrogen grinding resulted inHMW DNA. The optimization of cell lysis while minimizingDNAshearing is therefore crucial for the isolation ofDNAfor long‐read genomic sequencing because templateDNAlength strongly affects read output and length.

    

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