Chapter 11
DNA helicase
An enzyme that unwinds the DNA double helix during DNA replication
nuclear matrix
A filamentous network of proteins in the nucleus and lines the inner membrane
radial loop domains
A loop of chromatin, often 25,000 to 200,000 base pairs in size, that is anchored to the nuclear matrix.
purines have double ring ex adenine , guanine pyrimidines have single ring ex cytosine, uracil, thymine
Five different bases are found in nucleotides, although any given nucleotide contains only one base. The five bases are subdivided into two categories, the purines and the pyrimidines, due to differences in their structures (see Figure 11.4). The purine bases, adenine (A) and guanine (G), have a double-ring structure, whereas the pyrimidine bases, thymine (T), cytosine (C), and uracil (U), have a single-ring structure. Adenine, guanine, and cytosine are found in both DNA and RNA. Thymine is found only in DNA, whereas uracil is found only in RNA.
DNA carries the genetic instructions for the characteristics of living organisms. In the case of multicellular organisms such as plants and animals, the information stored in the genetic material enables a fertilized egg to develop into an embryo and eventually into an adult organism. In addition, the genetic material allows organisms to survive in their native environments.
For example, an individual's DNA provides the blueprint to produce enzymes that are needed to metabolize nutrients in food. To fulfill its role, the genetic material must meet the following key criteria: Information: The genetic material must contain the information necessary to construct an entire organism. Replication: The genetic material must be accurately copied. Transmission: After it is replicated, the genetic material can be passed from parent to offspring. It also must be passed from cell to cell during the process of cell division. Variation: Differences in the genetic material must account for the known variation within each species and among different species.
During DNA replication, the lagging strand is synthesized as a series of small fragments called ___________ fragments
Okazaki
major grooves
Segments of the DNA double helix in which proteins can bind to specific DNA sequences. These are very big spaces, and very information-rich, affects gene expression
histones
The first way DNA is compacted is by wrapping itself around a group of proteins
backbone
The linear arrangement of phosphates and sugar molecules in a DNA or RNA strand.
nuclear lamina
a collection of filamentous proteins that line the inner nuclear membrane; part of the nuclear matrix
chromosome
a discrete unit of genetic material composed of DNA and associated proteins. Eukaryotes have chromosomes in their cell nuclei and in plastids and in mitochondria
nucleosome
a structural unit of a eukaryotic chromosome, composed of octamer of histone (8 histone protein) wrapped with DNA.
Transformation
a type of genetic transfer in bacteria in which a segment of DNA is taken up by a competent cell and incorporated into the bacterial chromosome.
genome
all of an organism's genetic material
DNA topoisomerase
an enzyme that alleviates DNA supercoiling during DNA replication
Telomerase
and enzyme that catalyzes the replication of the telomere prevents chromosome shortening by attaching many copies of a DNA repeat sequence to the ends of chromosomes
DNA ligase
catalyzes the formation of a covalent bond between these two DNA fragments to complete the replication process in the lagging strand
Hetrochromatin
describe the highly compacted regions of chromosomes.
a chromosome is composed of
dna and proteins
In the Avery, McCarthy, McLeod experiment results
dna is the genetic component
a nucleosome is composed of ________________ wrapped around a octamer of histone proteins
double stranded DNA
Protease
enzyme that cut proteins into smaller polypeptides
DNase
enzyme that digests DNA
RNase
enzymes that digest RNA
the less condensed regions of chromosomes are referred to as
euchromatin
linker regions of DNA are sequence that
exist between adjacent nucleosome. A particular histone called H1 is bound to this linker region
DNA is compacted by wrapping itself around a group of protein called
histones
Directionality
in DNA and RNA strand, refers to the orientation of the sugar molecules in the strand. can be 5' to 3' or 3' to 5'
deoxynucleoside triphosphates
individual nucleotides with three phosphate groups
DNA polymerase
is responsible for covalently linking nucleotides together to form DNA strands.
chromatin
is used to describe the complex of DNA and protein that makes up eukaryotic chromosomes.
nucleosomes are connected by __________ regions of DNA that vary in length from 20 to 100 base pairs depending on species and cell type.
linker
the nuclear ____________ consists of nuclear lamina made of protein fibers and other protein that are connected to the lamina and fill the interior of the nucleus
matrix
A metaphase chromosome is _____________ a chromosome in a non dividing cells
more condensed than
griffith work performed at a time when the transforming substance was
not known
the 30 nm of fiber of chromatin can be further compacted by forming radial loop domains that are anchored to the
nuclear matrix
The 30 nm fiber is comprised of ___________________ units organized in a more compact structure
nucleosome
The repeating structural unit of eukaryotic chromatin is the
nucleosome
30 nm fiber
nucleosome units organized into a more compact structure that is 30 nm in diameter
The structure of connected _____________ can be likened to beads on as string
nucleosomes
the negative charges found in the ___________ group of DNA is attracted to positive charges on ___________ proteins found on chromatin
phosphate histone
in order to ensure speed, fidelity, completeness during DNA replication nearly all living species
produce more than one type of polymerase
phosphodiester bond
refers to double linkage, (2 phosphodiester bond) that hold together adjacent nucleotides in RNA and DNA
heterochromatin
refers to highly compacted regions
Heterochromatin
refers to the compaction level of the molecule
Telomere
repetitive DNA at the end of a eukaryotic chromosome
leading strand
synthesized continuously
lagging strand
synthesized in smaller fragments that are later connected
This is a region at the end of eukaryotic chromosomes
telomere
Proofreading
the ability of DNA polymerase to identify a mismatched nucleotide and remove it from the daughter strand
replication fork
the are where two DNA strands have separated and new strands are being synthesize
Euchromatin
the less condensed regions; areas that are capable of gene transcription
bidirectional
the process in which DNA replication proceeds outwards from the origin in opposite direction
minor grove
the smaller groove that spiral around the DNA
base pairs
the structure in which 2 bases in opposite strand of DNA hydrogen bonds with eachother
the formation of nucleosomes and their arrangements in 30 nm are important because _________
they compact DNA
