BIOL CH 17 Reading Review

Discipline: Biology (and other Life Sciences)

Type of Paper: Question-Answer

Academic Level: High school

Paper Format: APA

Pages: 1 Words: 275

Question

A single DNA molecule made from two different sources is called ____ DNA.

recombinant


A(n) _____ _____ is an enzyme capable of cutting DNA at specific sequences.

restriction enzyme


Which of the following sequences is a palindrome?

5'-GAATTC-3'


How do restriction enzymes work?

By binding to a specific base sequence and then cleaving the DNA backbone in two locations - one on each strand


DNA molecules can be separated based on their size using ____ _____

Gel electrophoresis


The development of which technology led to the entire field of biotechnology?   recombinant DNA


DNA fragments move faster through a gel polymer than

fragments and will be located closer to the bottom of the gel (the part of the gel where DNA fragments are loaded is the "top" of the gel).

smaller, larger


Which of the following is an enzyme that cuts DNA at a specific sequence?

Restriction enzyme

Molecular cloning is a term often used to refer to the process of ______.

producing recombinant DNA


The sequences recognized by restriction enzymes are often __

, meaning that the sequence is identical when read in the opposite direction on the complementary strand?   palindromic

How many times does a restriction enzyme cut a double stranded piece of DNA at a given restriction site?   2


Typically, gel electrophoresis is used to separate DNA fragments created through restriction based on which of the following?  Their size

Reverse transcriptase copies _____ to _____  RNA , DNA


The part of a gel where samples are loaded is often called the "top" of the gel; the opposite end of the gel is then referred to as the "bottom" of the gel. After electrophoresis is complete, where will the smallest DNA fragments be found?

Near the bottom of the gel


A collection of many different recombinant molecules that can be maintained and replicated (when needed) is called a DNA __ library

The process of producing a recombinant DNA molecule is often called molecular ____  cloning

What is the purpose of transformation? To introduce new DNA into a cell


Restriction sites are sequences recognized by restriction enzymes. They are often palindromic meaning that the sequence is ______.


identical when read in the opposite direction on the complementary strand


The polymerase _____ _______is used to quickly produce millions of copies of a particular DNA sequence.  chain reaction

The enzyme reverse transcriptase was isolated from what type of organism?

virus

In a DNA library, DNA fragments are spliced together with a specialized DNA molecule that allows the storage and propagation of the library. What are those specialized DNA molecules called?  cloning vectors

Order the three steps of a PCR cycle from the first to last step, starting at the top.

1.Heating

2.Lowering

3.Incubating


During ____, a bacterial cell is allowed to uptake foreign DNA. transformation


The purpose of PCR is to ______.

produce millions of copies of a particular DNA sequence


A scientist uses reverse transcriptase to make cDNA from isolate cellular mRNA. After the cDNA is produced, it can be used as a template in a PCR reaction. This is known as ______. reverse transcription PCR

In RT-qPCR, ______.the amount of DNA produced during the PCR step is measured in real time

The third step of a PCR cycle during which a DNA polymerase uses dNTPs to synthesize complementary DNA strands is referred to as which of the following?  Synthesis

Next generation sequencing technologies use variations of

____ to produce the DNA that will be sequenced.

PCR


DNA _____ is a technology that can identify and distinguish among individuals based on variations in the number of short tandem repeats in their DNA.

fingerprinting


Which of the following approaches allows scientists to determine the function of a gene?

Replace a wild-type gene with a mutant copy


Current next-generation sequencing technologies use ______.

variations of PCR to obtain DNA that will be sequenced


During RNA interference genes are usually

knocked down


The TALE proteins and the CRISPR/Cas9 system are examples of molecular techniques used to perform    in vivo DNA editing


Scientists introduce mutations in genes in order to understand their ____

function


The TALE repeat domain of a TALE protein contains

a middle pair of highly variable amino acids surrounded by conserved amino acids.


Next generation sequencing technologies use variations of ___

to produce the DNA that will be sequenced.   PCR


How can a TALE protein be engineered to recognize a specific sequence of DNA?   By combining several TALE repeat domains


.A(n) _____organism is one that has genes introduced into it via genetic engineering.  transgenic


In RNA interference, ______.

a gene is silenced by using a small double stranded RNA, which allows scientists to determine the gene's function


Because the _____ ______ is nearly universal, a gene from one organism can be placed into a completely different organism and direct the production of the same protein.     genetic code

True or false: Several new techniques allow scientists to directly edit the genome of living cells.  true

A mouse, which has had one of its genes inactivated, is called a _____ mouse.

knockout

TALE proteins contain several sets of a repeating 34 amino acid sequence known as the TALE ____ _______  repeat domain

A scientist wants to create a knockout mouse, in which a gene is knocked out only in brain cells. One approach that can be used by the scientist is ______ inactivation.

conditional


A TALEN is    a TALE protein fused to an nuclease.


What is the activity of Cre in the Cre-Lox system?  It is a recombinase

An organism that carries a gene (or genes) from a different species that was (or were) introduced via genetic engineering, is called ______.

a transgenic organism


The Ti plasmid of A. tumefaciens contains genes that cause the formation of a plant _____, or a gall, in infected tissues.   tumor

A human gene can be placed into the genome of a bacterium, such as E. coli, and the bacterium will make the encoded protein. How is that possible?

This is possible because of the universal genetic code.


Choose all applications of environmental biotechnology.

Reduce human impact on the environment

Increase the sustainability of resources

Repair environmental damage


Scientists can use a number of techniques to inactivate one or more genes

in an animal, such as a mouse. Such animals are called _______.

knockout animals


____- are fuels produced by harvesting and using biotechnology to process the biomass of plants or algae.  biofuels

____ ______allows the creation of knockout animals, in which a gene is knocked out only in cells of a specific tissue or at a specific time during development.

conditional interactivation


The use of microorganisms to degrade or metabolize (incorporate into microbial biomass) hydrocarbon pollutants is called ________.

bioremediation


The Cre-Lox system was isolated from the bacterial virus P1. In this system, ______.

the Cre enzyme will remove any sequence of DNA flanked by two Lox sequences

Selects all features of the Ti plasmid.

It contains genes that normally cause the formation of a plant tumor.

It contains sequences that can transfer part of the plasmid into plant cells.

It is carried by the plant pathogen Agrobacterium tumefaciens.


The use of biological processes to protect and repair the environment from negative human impacts is part of a growing area of biological applications called ______ ______environmental technology


The two main types of liquid biofuels currently produced are _____ and _____

ethanol and biodiesel


Wastewater can be treated in two or three stages. The three stages are, in the order in which they are performed, ______, ____ , and _____treatment.

primary, secondary, advanced

What is the term used for a probe attached to a complementary piece of DNA?  Hybridization


What do the first two stages of wastewater treatment involve?

Primary: physical and chemical removal of particulates; Secondary: microbial digestion

Gene _____ , also known as DNA ____ consist of a solid surface, which has been spotted with hundreds to thousands of different DNA sequences.

chips, microarrays

Scientists can use hybridization to detect a specific sequence using a fluorescently or radioactively labeled probe. In the case of FISH, ______.

the probe is fluorescently labeled and the target is DNA in cells with intact chromosomes

In immunoassays, a molecule is detected by using a specific _____ against it.

antibody

Which best describes the purpose of gene therapy?

Defective genes are restored or replaced.


What type of therapy can be used to treat degenerative diseases, or tissue damage, by replacing damaged tissue?  stem cell therapy

Choose the different types of sequences that are typically spotted on a gene chip?   Short DNA probes

Short DNA sequences produced by PCR or RT-PCR


Immunoassays can be used to detect viruses or bacteria. Place the steps in the process in the correct order, starting at the top. In this case, a virus is detected.

1.solid surface

2.unknown

3.antibody

4.fluorescense