Reduced Mismatch Repair of Heteroduplexes Reveals "Non"-Interfering Crossing over in Wild-Type Saccharomyces Cerevisiae

By Getz, Tony J.; Banse, Stephen A. et al. | Genetics, March 2008 | Go to article overview

Reduced Mismatch Repair of Heteroduplexes Reveals "Non"-Interfering Crossing over in Wild-Type Saccharomyces Cerevisiae


Getz, Tony J., Banse, Stephen A., Young, Lisa S., Banse, Allison V., Swanson, Johanna, Wang, Grace M., Browne, Barclay L., Foss, Henriette M., Stahl, Franklin W., Genetics


ABSTRACT

Using small palindromes to monitor meiotic double-strand-break-repair (DSBr) events, we demonstrate that two distinct classes of crossovers occur during meiosis in wild-type yeast. We found that crossovers accompanying 5:3 segregation of a palindrome show no conventional (i.e., positive) interference, while crossovers with 6:2 or normal 4:4 segregation for the same palindrome, in the same cross, do manifest interference. Our observations support the concept of a "non"-interference class and an interference class of meiotic double-strand-break-repair events, each with its own rules for mismatch repair of heteroduplexes. We further show that deletion of MSH4 reduces crossover tetrads with 6:2 or normal 4:4 segregation more than it does those with 5:3 segregation, consistent with Msh4p specifically promoting formation of crossovers in the interference class. Additionally, we present evidence that an ndj1 mutation causes a shift of noncrossovers to crossovers specifically within the "non"-interference class of DSBr events. We use these and other data in support of a model in which meiotic recombination occurs in two phases-one specializing in homolog pairing, the other in disjunction-and each producing both noncrossovers and crossovers.

IN yeast, deletion of the meiosis-specific gene MSH4, which, despite its name, is said to have no involvement inmismatch repair (Ross-Macdonald and Roeder 1994), usually leaves residual crossovers, and these crossovers have reduced interference (Novak et al. 2001). In Caenorhabditis elegans, however, which is characterized by strong crossover interference as well as by cis-acting "pairing centers" that promote synapsis of homologous chromosomes (Dernburg et al. 1998; MacQueen et al. 2005; Phillips and Dernburg 2006), deletion of him-14, a homolog of MSH4, eliminates essentially all crossing over while apparently leaving intact the ability to repair meiotic double-strand breaks (Zalevsky et al. 1999).On the basis of these data, Zalevsky et al. (1999) suggested that yeast, and other creatures lacking pairing centers, have two kinds of crossing over, one of which is Msh4 independent, has little or no crossover interference, and serves to establish effective pairing of homologous chromosomes.

Stahl et al. (2004) noted that the concept of two kinds of crossing over provides an explanation for the apparent correlation between the strength of interference and the fraction of crossovers that are Msh4 dependent in a given interval. Furthermore, Malkova et al. (2004), using a statistical analysis, which in the light of information presented here appears oversimplified, reported that the distribution of crossovers along the left arm of chromosome VII in wild-type yeast was better described by a two-kinds-of-crossover model than by the simple "counting model" for interference (Foss et al. 1993). More compelling support came from the phenotype of mms4 and mus81 deletions. Each of these mutations caused a reduction in crossing over but not in interference, while deletion ofMMS4 along with deletion of MSH4's partner, MSH5, caused a further reduction in crossing over (De Los Santos et al. 2003). Apparently, the mms4 and mus81 mutations specifically reduce Msh4-independent crossing over. However, in otherwise wildtype strains, mms4/mus81 reductions in crossing over do not appear to reduce chromosome pairing nor do they reduce meiosis I disjunction (De Los Santos et al. 2001, 2003; and see Maloisel et al. 2004). These observations prompt a modification of the influential hypothesis of Zalevsky et al. (1999): instead of being dependent on Msh4-independent crossovers, chromosome pairing in yeast is dependent on a class of double-strand-breakrepair (DSBr) events of which the crossovers happen to be relatively Msh4 independent. This framework of thought, similar to that adopted by Peoples-Holst and Burgess (2005), has guided our analysis.

To test the hypothesis of Stahl et al. (2004) that interfering and "non"-interfering crossovers should be distinguishable from each other in wild-type yeast, we measured interference in strains marked (near DSB hotspots at HIS4 on chromosome III and at ARG4 on chromosome VIII) with palindromes that make poorly repairable mismatches (PRMs) in heteroduplex DNA, often resulting in 5:3 segregation at the palindrome site. …

The rest of this article is only available to active members of Questia

Already a member? Log in now.

Notes for this article

Add a new note
If you are trying to select text to create highlights or citations, remember that you must now click or tap on the first word, and then click or tap on the last word.
One moment ...
Default project is now your active project.
Project items
Notes
Cite this article

Cited article

Style
Citations are available only to our active members.
Buy instant access to cite pages or passages in MLA 8, MLA 7, APA and Chicago citation styles.

(Einhorn, 1992, p. 25)

(Einhorn 25)

(Einhorn 25)

1. Lois J. Einhorn, Abraham Lincoln, the Orator: Penetrating the Lincoln Legend (Westport, CT: Greenwood Press, 1992), 25, http://www.questia.com/read/27419298.

Note: primary sources have slightly different requirements for citation. Please see these guidelines for more information.

Cited article

Reduced Mismatch Repair of Heteroduplexes Reveals "Non"-Interfering Crossing over in Wild-Type Saccharomyces Cerevisiae
Settings

Settings

Typeface
Text size Smaller Larger Reset View mode
Search within

Search within this article

Look up

Look up a word

  • Dictionary
  • Thesaurus
Please submit a word or phrase above.
Print this page

Print this page

Why can't I print more than one page at a time?

Help
Full screen
Items saved from this article
  • Highlights & Notes
  • Citations
Some of your highlights are legacy items.

Highlights saved before July 30, 2012 will not be displayed on their respective source pages.

You can easily re-create the highlights by opening the book page or article, selecting the text, and clicking “Highlight.”

matching results for page

    Questia reader help

    How to highlight and cite specific passages

    1. Click or tap the first word you want to select.
    2. Click or tap the last word you want to select, and you’ll see everything in between get selected.
    3. You’ll then get a menu of options like creating a highlight or a citation from that passage of text.

    OK, got it!

    Cited passage

    Style
    Citations are available only to our active members.
    Buy instant access to cite pages or passages in MLA 8, MLA 7, APA and Chicago citation styles.

    "Portraying himself as an honest, ordinary person helped Lincoln identify with his audiences." (Einhorn, 1992, p. 25).

    "Portraying himself as an honest, ordinary person helped Lincoln identify with his audiences." (Einhorn 25)

    "Portraying himself as an honest, ordinary person helped Lincoln identify with his audiences." (Einhorn 25)

    "Portraying himself as an honest, ordinary person helped Lincoln identify with his audiences."1

    1. Lois J. Einhorn, Abraham Lincoln, the Orator: Penetrating the Lincoln Legend (Westport, CT: Greenwood Press, 1992), 25, http://www.questia.com/read/27419298.

    Cited passage

    Thanks for trying Questia!

    Please continue trying out our research tools, but please note, full functionality is available only to our active members.

    Your work will be lost once you leave this Web page.

    Buy instant access to save your work.

    Already a member? Log in now.

    Search by... Author
    Show... All Results Primary Sources Peer-reviewed

    Oops!

    An unknown error has occurred. Please click the button below to reload the page. If the problem persists, please try again in a little while.