In gel electrophoresis, the smallest DNA fragments will travel the farthest. Whydoes this consistently occur? *Small fragments have less charge on them and therefore travel farther.Small fragments are the first to leave the well and have more time to travel than thelarger fragments.The higher molecular weight of larger fragments make them sink.ods 1 and 2Small fragments move more freely through the agar gel.is1, Highschoolpol MP3,P4The electrical current created during gel electrophoresis forces DNA to movefrom the negative end to the positive end. Which of the following statementsaccurately describes why this happens? *ed Thu Fricom/apps/191034318/run/course/2705839563INTL

Gel electrophoresis is a molecular biology method used to separate DNA fragments. This separates the…

In gel electrophoresis, the smalest DNA fragments will travel the farthest. Why does this consistently occur? * O Small fragments have less charge on them and therefore travel farther. Small fragments are the first to leave the well and have more time to travel than the larger fragments. O The higher molecular weight of larger fragments make them sink. O Small fragments move more freely through the agar gel.

In gel electrophoresis, the smalest DNA fragments will travel the farthest. Why does this consistently occur? * O Small fragments have less charge on them and therefore travel farther. Small fragments are the first to leave the well and have more time to travel than the larger fragments. O The higher molecular weight of larger fragments make them sink. O Small fragments move more freely through the agar gel.

Human Heredity: Principles and Issues (MindTap Course List)

11th Edition

ISBN:9781305251052

Author:Michael Cummings

Publisher:Michael Cummings

Chapter15: Genomes And Genomics

Section: Chapter Questions

Problem 6QP: Which of the following best describes the process of DNA sequencing? a. DNA is separated on a gel,...

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DNA is charged and fragments travel faster than positively, shorter, longer negatively, shorter, longer negatively, longer, shorter positively, longer, shorter _fragments within a gel during gel electrophoresis.
What is the relationship between fluorescence intensity of a spot and the amount of DNA in a sample for a Virochip DNA microassay? From the following which is the best choice Less DNA results in greater fluorescene since the laser passes through he sample eaiser More DNA equals to more intense fluorescence since the DNA makes a layer to refelct the laser light More DNA equals to more intense fluorescence since of more dye on the DNA is fluorescene More DNA results in to more fluorescence since there's more DNA to be excted by the laser None of the above
What type of matrix was used to separate DNA in gel electrophoresis? Agarose 1X TBE Glycerol Polyacrylamide Ο 1X TAE
= Menu #1 Mol Bio Restriction An... X + Create All tools Edit Convert E-Sign Sign in Find text or tools H 3. If the PMBBS plasmid were digested with all three REs together, how many fragments would be observed, and what would be the sizes (in bp) of these fragments? Number of fragments: Sizes: 4. Draw the actual map of the PMBBS plasmid, following the style of the sample map shown in Figure 1. Make sure you show the following information: (1) relative locations of the RE sites; (2) size in base pairs of the segments of DNA between sites. (The map need not be drawn to scale.) Answer: (provide a drawing) NFL Q Search IA W ☑ 0 Al Assistant C 2 2 C 1:1 ༢ ☑ 8:58 PM 10/22/2024 Q
After cloning, they transformed and plate bacterial cells using their cloned plasmid. Onto what type of growth medium will they plate their cells in order to distinguish between bacterial cells that obtained the plasmid and those that did not?
SC DF eas fill The diagram below illustrates how recombinant DNA technology is used to produce valuable products. What is the purpose of using restriction enzymes in recombinant DNA technology? PDF UNOFFIC TRANSCR ostly cloudy DNA plasmids OO Bacterial cell (E. coli) Bacterium with recombinant DNA plasmid Plasmids isolated OO DO Cloned cells produce new protein such as enzymes or hormones O-C Ligase joins sticky ends Replication of new gene 00 00 Restriction enzyme cuts plasmids Sticky ends Gene obtained from donor DNA using the same restriction enzyme O The restriction enzymes are used to catalyze the synthesis of new proteins such as enzymes or hormones. Sticky ends O The restriction enzymes are used to join sticky ends of both the cut plasmid and the cut gene obtained from donor DNA PI mas omis O Search
Examine the pGLO plasmid DNA solution with the UV lamp. Note your observations. Using a micropipettor, withdraw 10 ul of plasmid and mix it into the cell suspension of the +PGLO tube by pipetting up and down three times. Close the tube and return it to the rack on ice. Also close the -PGLO tube. Do not add plasmid DNA to the -pGLO tube. Why not?
You are provided with coiled DNA and plasmid DNA that you subject to gel electrophoresis. Draw this gel. Remember to indicate the direction in which your DNA is moving and also show any reference samples. Also remember to show all components of your gel. Exact fragment sizes are not important.
During which step in the transformation protocol does the plasmid DNA move into the cell? Heat Shock Grow in LB media at 37°C Plate on media with Ampicillin O Incubate the cells on ice with CaCl2 in the absence of plasmid. fg f1o 19 %24 & 5 6. 7 8. 4 5 R Y U P F G J 2 K 3] vの
Why is fluorescent in situ hybridization (FISH) a useful tool for identifying micrboes? DNA is run over a chip, allowing many different gene to be tested Different probes can show spatial relationships in the cell with other bound probes None of the other choices Probes run across a membrane is a natural follow-up to gel electrophoresis Provides very detailed information about the genetic sequence of the organism
Draw the gel electrophoretic pattern that would be seen in dideoxy sequenceanalysis of the DNA molecule
Match the item to its best description or use. Agarose 1. produces DNA fragments RFLP 2. important tools; used to load samples into electrophoresis gels 3. small circular chromosomes in Comb bacteria 4. region of DNA that produces Micropipette different band sizes when cut with restriction enzymes Restriction Enzyme 5. produces wells in the gel where samples are added gel chamber 6. container where gel is placed to Stain or dye 8. Plasmid DNA introduce the electrical current 7. used to produce the actual gel used to visualize the otherwise colorless DNA bands