It has affected small businesses because many people are getting laid off and now they can’t pay for rent or electricity. So those businesses have to shut down
As humans plants also need oxygen to breathe they only take in carbon dioxide to do photosynthesis.So they wont do photosynthesis at night and so they only need to breathe. even though their stomata are closed at night some oxygen can go inside. and this is how plants breathe when their stomata are … Enzymes change carbon dioxide to glucose.
The correct answer is option lysosome and vacuole.
Both the type of cell, the plant as well as animal cells do have the lysosome and the vacuoles. The vacuoles in the plant cells are prominent and very important organelle, a central large occupies a lot of volume of the plant cell. In the animal cells, the vacuoles are smaller and large in number. Lysosomes are also present in both animal as well as the plant cell.
A cell wall is a specific feature of the plant cell. Centrioles are not found in all plant cells, but are present in all animal cells. Chloroplast is the organelle, where the photosynthesis takes place, as animal cells do not perform photosynthesis, they do not have chloroplasts.
Snow is precipitation in the form of ice crystals. It originates in clouds when temperatures are below the freezing point (0 degrees Celsius, or 32 degrees Fahrenheit), when water vapor in the atmosphere condenses directly into ice without going through the liquid stage.
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.
