What type of bonds holds the two strands of DNA together, and where are these bonds within the double helix structure? a. covalent bonds; between the nucleotide bases b. ionic bonds; scientists have not discovered where these are in the DNA helix c. hydro What is the bond between n...
Understand what a phosphodiester bond is, learn about phosphodiester bond formation, explore the role of phosphodiester bonds in DNA and RNA, and discover its biological importance. Explore our homework questions and answers library Search B...
Thus, The four bases of DNA are: Adenine (A), Guanine (G), Cytosine (C), Thymine (T)and...
To find the sequence of bases in the complementary strand of DNA given the sequence 5' -G-G-A-C-T-A-C-T-3', we will follow these steps:Step 1: Understand the Base Pairing Rules DNA is composed of four bases: adenine (A), thymin
There’s quite a few traits you’ll want to look for in dogs if you are considering a service dog. Intelligent Friendly and calm deposition Strong work ethic Low maintenance cleanliness Able to form strong bonds Intelligent Service dogs must learn many different things. They are required to ...
Dark DNA May Reveal New Lifeforms 18Jul You probably didn’t know that Viruses make up most of the DNA on our planet. There are more viruses on earth than there are stars in the universe. That’s a really, really, REALLY big number. ...
The reasons for the demise of the Neanderthals some 30 thousand years ago, only a few millennia after the first appearance of modern humans in Europe, remain controversial, and are a focus of Neanderthal research.
The chemistry involved in PCR depends on the complementarities (matching) of the nucleotide bases in the double-stranded DNA helix. When a molecule of DNA is sufficiently heated, the hydrogen bonds holding together the double helix are disrupted and the molecule separates or denatures into single ...
are linked to each other with hydrogen bonds, forming the "rungs" of a structure that, if not wound into a helix, would resemble a ladder; in this model, the sugars and phosphates form the sides. However, each DNA nitrogenous base can bind to one and only one of the other three. ...
hydrogen bonds linking the purines and the pyrimidines. Instead of using RNA on a section of the DNA ladder, the whole ladder separates and new nitrogenous bases are added to each side. Because each base will only accept one partner, each side becomes a full and exact duplicate of the ...