What happens if DNA repair genes are damaged? Can DNA repair damaged genes? What does DNA provide the code for? What is DNA responsible for? What is DNA gyrase? What does DNA gyrase do? What is DNA technology? How is DNA methylation used in DNA repair?
What are the main enzymes used by molecular biologists to manipulate DNA? What is the function of the enzyme DNA polymerase? What is the function of tRNA in protein synthesis? What is the role of proteins in a chromosome? What is a DNA binding domain?
aligand to the DNA-binding domain of the p53 transcription factor ligand到p53副本因素的脱氧核糖核酸束缚的领域[translate] a认识你很高兴!你很漂亮! Knew you are very happy! You are very attractive![translate] a希望你开心快乐 Hopes you happy joyful[translate] ...
is a cysteine-rich, highly conserved region among the steroid receptor superfamily. The crystal structure of the DBD shows two zinc fingers, each containing four cysteine residues responsible for recognizing and binding to promoter DNA sequences called the Androgen Response Element (ARE), thereby regu...
Like the other nuclear receptors, the DNA-binding domain of the androgen and glucocorticoid receptors consist of two zinc finger modules. The first recognizes a response element characterized by a hexameric motif, while the second is involved in receptor dimerization. While their sequence specificity ...
As the matter stands, Giddens on relates such two pairs approximately is a pair relates - the social structure and the individual motion relations, and attempts between this the two to realize puts through.[translate] aligand to the DNA-binding domain of the p53 transcription factor ligand到p53...
One such case is DNA repair at the natural ends of linear chromosomes, known as telomeres, which can lead to chromosome-end fusions. Here, we review data obtained over the past decade and discuss the mechanisms that protect mammalian chromosome ends from the DNA damage response. We also ...
Silicon is the backbone of the semiconductor industry, but it's also interesting in its own right. Here's why it's so important in modern computing—and in many other applications.
is the need to generate a double strandbreak (DSB) in the DNA at a specific locus in the genome. To achieve thisprecise DSB researchers have developed engineered nucleases, also termed “molecularscissors”. Previous efforts have focused in the molecular understanding andredesign of different ...
39K This lesson will discuss the concept of gene regulation, how genes are regulated, as well as some mechanisms that enable it. It will also cover the reasons that make gene regulation important. Related to this QuestionWhat is a DNA-binding protein motif? What is a DNA binding vesicant...