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Answer:</h2><h2>Ground Tissue Function</h2><h2>Parenchyma Tissue Photosynthesis Food storage Healing and tissue regeneration</h2><h2>Collenchyma Tissue Support in young stems, roots, and petioles</h2><h2>Sclerenchyma Tissue * Rigid support Protection</h2><h2 />
Explanation:
<h3>Ground Tissue Function</h3><h3>Parenchyma Tissue Photosynthesis Food storage Healing and tissue regeneration</h3><h3>Collenchyma Tissue Support in young stems, roots, and petioles</h3><h3>Sclerenchyma Tissue * Rigid support Protection</h3><h2>hope this helps</h2>
Answer:
DNA restriction enzymes cut the DNA molecule, while DNA ligases join the resulting DNA fragments
Explanation:
Transformation is a naturally occurring process by which bacteria incorporate exogenous genetic material from their surrounding environment. This process (transformation) is used for DNA cloning via plasmid vectors. In DNA cloning, transformation occurs after restriction enzymes cut the DNA at specific sequences named palindromic sequences (i.e, sequences that can be read the same in opposite direction). Restriction enzymes can generate sticky-ends, where enzymes make staggered cuts in the two strands (e.g., <em>BamH</em>), or blunt ends, where the resulting strands are of the same length (e.g., <em>HaeIII</em>). In general, sticky-end enzymes are more useful because they generate a 3' overhang in one molecule and a complementary 5' overhang in the other, increasing the yield and specificity of ligation. During ligation, a DNA ligase is used to join both DNA strands by forming phosphodiester bonds in the plasmid. Following transformation, bacteria can be selected on antibiotic plates.
Water is the substance that does not use the aid of an active transport in the absorption of blood capillarities inside the kidney. An active transport would only be applicable if the molecule requires being transferred from an area lower concentration to the area of higher concentration across a membrane.
