Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element

Wilson Leung; Christopher D. Shaffer; Elizabeth J. Chen; Thomas J. Quisenberry; Kevin Ko; John M. Braverman; Thomas C. Giarla; Nathan T. Mortimer; Laura K. Reed; Sheryl T. Smith; Srebrenka Robic; Shannon R. McCartha; Danielle R. Perry; Lindsay M. Prescod; Zenyth A. Sheppard; Ken J. Saville; Allison McClish; Emily A. Morlock; Victoria R. Sochor; Brittney Stanton; Isaac C. Veysey-White; Dennis Revie; Luis A. Jimenez; Jennifer J. Palomino; Melissa D. Patao; Shane M. Patao; Edward T. Himelblau; Jaclyn D. Campbell; Alexandra L. Hertz; Maddison F. McEvilly; Allison R. Wagner; James Youngblom; Baljit Bedi; Jeffery Bettincourt; Erin Duso; Maiye Her; William Hilton; Samantha House; Masud Karimi; Kevin Kumimoto; Rebekah Lee; Darryl Lopez; George Odisho; Ricky Prasad; Holly Lyn Robbins; Tanveer Sandhu; Tracy Selfridge; Kara Tsukashima; Hani Yosif; Cassie Modahl

doi:10.1534/g3.117.040907

Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element

Wilson Leung, Christopher D. Shaffer, Elizabeth J. Chen, Thomas J. Quisenberry, Kevin Ko, John M. Braverman, Thomas C. Giarla, Nathan T. Mortimer, Laura K. Reed, Sheryl T. Smith, Srebrenka Robic, Shannon R. McCartha, Danielle R. Perry, Lindsay M. Prescod, Zenyth A. Sheppard, Ken J. Saville, Allison McClish, Emily A. Morlock, Victoria R. Sochor, Brittney StantonIsaac C. Veysey-White, Dennis Revie, Luis A. Jimenez, Jennifer J. Palomino, Melissa D. Patao, Shane M. Patao, Edward T. Himelblau, Jaclyn D. Campbell, Alexandra L. Hertz, Maddison F. McEvilly, Allison R. Wagner, James Youngblom, Baljit Bedi, Jeffery Bettincourt, Erin Duso, Maiye Her, William Hilton, Samantha House, Masud Karimi, Kevin Kumimoto, Rebekah Lee, Darryl Lopez, George Odisho, Ricky Prasad, Holly Lyn Robbins, Tanveer Sandhu, Tracy Selfridge, Kara Tsukashima, Hani Yosif, Cassie Modahl

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

The discordance between genome size and the complexity of eukaryotes can partly be attributed to differences in repeat density. The Muller F element (~5.2 Mb) is the smallest chromosome in Drosophila melanogaster, but it is substantially larger (>18.7 Mb) in D. ananassae. To identify the major contributors to the expansion of the F element and to assess their impact, we improved the genome sequence and annotated the genes in a 1.4-Mb region of the D. ananassae F element, and a 1.7-Mb region from the D element for comparison. We find that transposons (particularly LTR and LINE retrotransposons) are major contributors to this expansion (78.6%), while Wolbachia sequences integrated into the D. ananassae genome are minor contributors (0.02%). Both D. melanogaster and D. ananassae F-element genes exhibit distinct characteristics compared to D-element genes (e.g., larger coding spans, larger introns, more coding exons, and lower codon bias), but these differences are exaggerated in D. ananassae. Compared to D. melanogaster, the codon bias observed in D. ananassae F-element genes can primarily be attributed to mutational biases instead of selection. The 59 ends of F-element genes in both species are enriched in dimethylation of lysine 4 on histone 3 (H3K4me2), while the coding spans are enriched in H3K9me2. Despite differences in repeat density and gene characteristics, D. ananassae F-element genes show a similar range of expression levels compared to genes in euchromatic domains. This study improves our understanding of how transposons can affect genome size and how genes can function within highly repetitive domains.

Original language	English
Pages (from-to)	2439-2460
Number of pages	22
Journal	G3: Genes, Genomes, Genetics
Volume	7
Issue number	8
DOIs	https://doi.org/10.1534/g3.117.040907
Publication status	Published - 1 Jan 2017
Externally published	Yes

Keywords

Drosophila
Genome size
Heterochromatin
Retrotransposons
Wolbachia

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10.1534/g3.117.040907

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Leung, W., Shaffer, C. D., Chen, E. J., Quisenberry, T. J., Ko, K., Braverman, J. M., Giarla, T. C., Mortimer, N. T., Reed, L. K., Smith, S. T., Robic, S., McCartha, S. R., Perry, D. R., Prescod, L. M., Sheppard, Z. A., Saville, K. J., McClish, A., Morlock, E. A., Sochor, V. R., ... Modahl, C. (2017). Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element. G3: Genes, Genomes, Genetics, 7(8), 2439-2460. https://doi.org/10.1534/g3.117.040907

@article{fa679df709c5421fac4adb0502bfa17e,

title = "Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element",

abstract = "The discordance between genome size and the complexity of eukaryotes can partly be attributed to differences in repeat density. The Muller F element (\textasciitilde{}5.2 Mb) is the smallest chromosome in Drosophila melanogaster, but it is substantially larger (>18.7 Mb) in D. ananassae. To identify the major contributors to the expansion of the F element and to assess their impact, we improved the genome sequence and annotated the genes in a 1.4-Mb region of the D. ananassae F element, and a 1.7-Mb region from the D element for comparison. We find that transposons (particularly LTR and LINE retrotransposons) are major contributors to this expansion (78.6\%), while Wolbachia sequences integrated into the D. ananassae genome are minor contributors (0.02\%). Both D. melanogaster and D. ananassae F-element genes exhibit distinct characteristics compared to D-element genes (e.g., larger coding spans, larger introns, more coding exons, and lower codon bias), but these differences are exaggerated in D. ananassae. Compared to D. melanogaster, the codon bias observed in D. ananassae F-element genes can primarily be attributed to mutational biases instead of selection. The 59 ends of F-element genes in both species are enriched in dimethylation of lysine 4 on histone 3 (H3K4me2), while the coding spans are enriched in H3K9me2. Despite differences in repeat density and gene characteristics, D. ananassae F-element genes show a similar range of expression levels compared to genes in euchromatic domains. This study improves our understanding of how transposons can affect genome size and how genes can function within highly repetitive domains.",

keywords = "Drosophila, Genome size, Heterochromatin, Retrotransposons, Wolbachia",

author = "Wilson Leung and Shaffer, \{Christopher D.\} and Chen, \{Elizabeth J.\} and Quisenberry, \{Thomas J.\} and Kevin Ko and Braverman, \{John M.\} and Giarla, \{Thomas C.\} and Mortimer, \{Nathan T.\} and Reed, \{Laura K.\} and Smith, \{Sheryl T.\} and Srebrenka Robic and McCartha, \{Shannon R.\} and Perry, \{Danielle R.\} and Prescod, \{Lindsay M.\} and Sheppard, \{Zenyth A.\} and Saville, \{Ken J.\} and Allison McClish and Morlock, \{Emily A.\} and Sochor, \{Victoria R.\} and Brittney Stanton and Veysey-White, \{Isaac C.\} and Dennis Revie and Jimenez, \{Luis A.\} and Palomino, \{Jennifer J.\} and Patao, \{Melissa D.\} and Patao, \{Shane M.\} and Himelblau, \{Edward T.\} and Campbell, \{Jaclyn D.\} and Hertz, \{Alexandra L.\} and McEvilly, \{Maddison F.\} and Wagner, \{Allison R.\} and James Youngblom and Baljit Bedi and Jeffery Bettincourt and Erin Duso and Maiye Her and William Hilton and Samantha House and Masud Karimi and Kevin Kumimoto and Rebekah Lee and Darryl Lopez and George Odisho and Ricky Prasad and Robbins, \{Holly Lyn\} and Tanveer Sandhu and Tracy Selfridge and Kara Tsukashima and Hani Yosif and Cassie Modahl",

year = "2017",

month = jan,

day = "1",

doi = "10.1534/g3.117.040907",

language = "English",

volume = "7",

pages = "2439--2460",

journal = "G3: Genes, Genomes, Genetics",

issn = "2160-1836",

publisher = "Genetics Society of America",

number = "8",

}

Leung, W, Shaffer, CD, Chen, EJ, Quisenberry, TJ, Ko, K, Braverman, JM, Giarla, TC, Mortimer, NT, Reed, LK, Smith, ST, Robic, S, McCartha, SR, Perry, DR, Prescod, LM, Sheppard, ZA, Saville, KJ, McClish, A, Morlock, EA, Sochor, VR, Stanton, B, Veysey-White, IC, Revie, D, Jimenez, LA, Palomino, JJ, Patao, MD, Patao, SM, Himelblau, ET, Campbell, JD, Hertz, AL, McEvilly, MF, Wagner, AR, Youngblom, J, Bedi, B, Bettincourt, J, Duso, E, Her, M, Hilton, W, House, S, Karimi, M, Kumimoto, K, Lee, R, Lopez, D, Odisho, G, Prasad, R, Robbins, HL, Sandhu, T, Selfridge, T, Tsukashima, K, Yosif, H & Modahl, C 2017, 'Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element', G3: Genes, Genomes, Genetics, vol. 7, no. 8, pp. 2439-2460. https://doi.org/10.1534/g3.117.040907

TY - JOUR

T1 - Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element

AU - Leung, Wilson

AU - Shaffer, Christopher D.

AU - Chen, Elizabeth J.

AU - Quisenberry, Thomas J.

AU - Ko, Kevin

AU - Braverman, John M.

AU - Giarla, Thomas C.

AU - Mortimer, Nathan T.

AU - Reed, Laura K.

AU - Smith, Sheryl T.

AU - Robic, Srebrenka

AU - McCartha, Shannon R.

AU - Perry, Danielle R.

AU - Prescod, Lindsay M.

AU - Sheppard, Zenyth A.

AU - Saville, Ken J.

AU - McClish, Allison

AU - Morlock, Emily A.

AU - Sochor, Victoria R.

AU - Stanton, Brittney

AU - Veysey-White, Isaac C.

AU - Revie, Dennis

AU - Jimenez, Luis A.

AU - Palomino, Jennifer J.

AU - Patao, Melissa D.

AU - Patao, Shane M.

AU - Himelblau, Edward T.

AU - Campbell, Jaclyn D.

AU - Hertz, Alexandra L.

AU - McEvilly, Maddison F.

AU - Wagner, Allison R.

AU - Youngblom, James

AU - Bedi, Baljit

AU - Bettincourt, Jeffery

AU - Duso, Erin

AU - Her, Maiye

AU - Hilton, William

AU - House, Samantha

AU - Karimi, Masud

AU - Kumimoto, Kevin

AU - Lee, Rebekah

AU - Lopez, Darryl

AU - Odisho, George

AU - Prasad, Ricky

AU - Robbins, Holly Lyn

AU - Sandhu, Tanveer

AU - Selfridge, Tracy

AU - Tsukashima, Kara

AU - Yosif, Hani

AU - Modahl, Cassie

PY - 2017/1/1

Y1 - 2017/1/1

N2 - The discordance between genome size and the complexity of eukaryotes can partly be attributed to differences in repeat density. The Muller F element (~5.2 Mb) is the smallest chromosome in Drosophila melanogaster, but it is substantially larger (>18.7 Mb) in D. ananassae. To identify the major contributors to the expansion of the F element and to assess their impact, we improved the genome sequence and annotated the genes in a 1.4-Mb region of the D. ananassae F element, and a 1.7-Mb region from the D element for comparison. We find that transposons (particularly LTR and LINE retrotransposons) are major contributors to this expansion (78.6%), while Wolbachia sequences integrated into the D. ananassae genome are minor contributors (0.02%). Both D. melanogaster and D. ananassae F-element genes exhibit distinct characteristics compared to D-element genes (e.g., larger coding spans, larger introns, more coding exons, and lower codon bias), but these differences are exaggerated in D. ananassae. Compared to D. melanogaster, the codon bias observed in D. ananassae F-element genes can primarily be attributed to mutational biases instead of selection. The 59 ends of F-element genes in both species are enriched in dimethylation of lysine 4 on histone 3 (H3K4me2), while the coding spans are enriched in H3K9me2. Despite differences in repeat density and gene characteristics, D. ananassae F-element genes show a similar range of expression levels compared to genes in euchromatic domains. This study improves our understanding of how transposons can affect genome size and how genes can function within highly repetitive domains.

AB - The discordance between genome size and the complexity of eukaryotes can partly be attributed to differences in repeat density. The Muller F element (~5.2 Mb) is the smallest chromosome in Drosophila melanogaster, but it is substantially larger (>18.7 Mb) in D. ananassae. To identify the major contributors to the expansion of the F element and to assess their impact, we improved the genome sequence and annotated the genes in a 1.4-Mb region of the D. ananassae F element, and a 1.7-Mb region from the D element for comparison. We find that transposons (particularly LTR and LINE retrotransposons) are major contributors to this expansion (78.6%), while Wolbachia sequences integrated into the D. ananassae genome are minor contributors (0.02%). Both D. melanogaster and D. ananassae F-element genes exhibit distinct characteristics compared to D-element genes (e.g., larger coding spans, larger introns, more coding exons, and lower codon bias), but these differences are exaggerated in D. ananassae. Compared to D. melanogaster, the codon bias observed in D. ananassae F-element genes can primarily be attributed to mutational biases instead of selection. The 59 ends of F-element genes in both species are enriched in dimethylation of lysine 4 on histone 3 (H3K4me2), while the coding spans are enriched in H3K9me2. Despite differences in repeat density and gene characteristics, D. ananassae F-element genes show a similar range of expression levels compared to genes in euchromatic domains. This study improves our understanding of how transposons can affect genome size and how genes can function within highly repetitive domains.

KW - Drosophila

KW - Genome size

KW - Heterochromatin

KW - Retrotransposons

KW - Wolbachia

U2 - 10.1534/g3.117.040907

DO - 10.1534/g3.117.040907

M3 - Article

SN - 2160-1836

VL - 7

SP - 2439

EP - 2460

JO - G3: Genes, Genomes, Genetics

JF - G3: Genes, Genomes, Genetics

IS - 8

ER -

Retrotransposons are the major contributors to the expansion of the Drosophila ananassae muller F element

Abstract

Keywords

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