Michelle C Stitzer
Michelle C Stitzer
NSF Postdoctoral Fellow, Cornell University
Verified email at - Homepage
Cited by
Cited by
Improved maize reference genome with single-molecule technologies
Y Jiao, P Peluso, J Shi, T Liang, MC Stitzer, B Wang, MS Campbell, ...
Nature 546 (7659), 524-527, 2017
Transposable elements contribute to activation of maize genes in response to abiotic stress
I Makarevitch, AJ Waters, PT West, M Stitzer, CN Hirsch, J Ross-Ibarra, ...
PLoS genetics 11 (1), e1004915, 2015
The maize W22 genome provides a foundation for functional genomics and transposon biology
NM Springer, SN Anderson, CM Andorf, KR Ahern, F Bai, O Barad, ...
Nature genetics 50 (9), 1282-1288, 2018
A kinesin-14 motor activates neocentromeres to promote meiotic drive in maize
RK Dawe, EG Lowry, JI Gent, MC Stitzer, KW Swentowsky, DM Higgins, ...
Cell 173 (4), 839-850. e18, 2018
Transposable elements contribute to dynamic genome content in maize
SN Anderson, MC Stitzer, AB Brohammer, P Zhou, JM Noshay, ...
The Plant Journal 100 (5), 1052-1065, 2019
The genomic ecosystem of transposable elements in maize
MC Stitzer, SN Anderson, NM Springer, J Ross-Ibarra
PLoS genetics 17 (10), e1009768, 2021
Maize domestication and gene interaction
MC Stitzer, J Ross‐Ibarra
New phytologist 220 (2), 395-408, 2018
Functional variants of DOG1 control seed chilling responses and variation in seasonal life-history strategies in Arabidopsis thaliana
A Martínez-Berdeja, MC Stitzer, MA Taylor, M Okada, E Ezcurra, ...
Proceedings of the National Academy of Sciences 117 (5), 2526-2534, 2020
Monitoring the interplay between transposable element families and DNA methylation in maize
JM Noshay, SN Anderson, P Zhou, L Ji, W Ricci, Z Lu, MC Stitzer, ...
PLoS genetics 15 (9), e1008291, 2019
Using high-throughput multiple optical phenotyping to decipher the genetic architecture of maize drought tolerance
X Wu, H Feng, D Wu, S Yan, P Zhang, W Wang, J Zhang, J Ye, G Dai, ...
Genome Biology 22 (1), 1-26, 2021
Adaptation in plant genomes: bigger isnĘt better, but itĘs probably different
W Mei, MG Stetter, DJ Gates, M Stitzer, J Ross-Ibarra
bioRxiv, 196501, 2017
The genome-wide dynamics of purging during selfing in maize
K Roessler, A Muyle, CM Diez, GRJ Gaut, A Bousios, MC Stitzer, ...
Nature plants 5 (9), 980-990, 2019
Dynamic patterns of transcript abundance of transposable element families in maize
SN Anderson, MC Stitzer, P Zhou, J Ross-Ibarra, CD Hirsch, NM Springer
G3: Genes, Genomes, Genetics 9 (11), 3673-3682, 2019
AnchorWave: Sensitive alignment of genomes with high sequence diversity, extensive structural polymorphism, and whole-genome duplication
B Song, S Marco-Sola, M Moreto, L Johnson, ES Buckler, MC Stitzer
Proceedings of the National Academy of Sciences 119 (1), e2113075119, 2022
Double triage to identify poorly annotated genes in maize: The missing link in community curation
MK Tello-Ruiz, CF Marco, FM Hsu, RS Khangura, P Qiao, S Sapkota, ...
PLoS One 14 (10), e0224086, 2019
Adaptive significance of flowering time variation across natural seasonal environments in Arabidopsis thaliana
A Fournier‐Level, MA Taylor, JF Paril, A Martínez‐Berdeja, MC Stitzer, ...
New Phytologist 234 (2), 719-734, 2022
Hybrid decay: a transgenerational epigenetic decline in vigor and viability triggered in backcross populations of teosinte with maize
W Xue, SN Anderson, X Wang, L Yang, PA Crisp, Q Li, J Noshay, ...
Genetics 213 (1), 143-160, 2019
A multiple alignment workflow shows the effect of repeat masking and parameter tuning on alignment in plants
Y Wu, L Johnson, B Song, C Romay, M Stitzer, A Siepel, E Buckler, ...
The Plant Genome 15 (2), e20204, 2022
Two teosintes made modern maize
N Yang, Y Wang, X Liu, M Jin, M Vallebueno-Estrada, E Calfee, L Chen, ...
bioRxiv, 2023.01. 31.526540, 2023
Controlling for variable transposition rate with an age-adjusted site frequency spectrum
R Horvath, M Menon, M Stitzer, J Ross-Ibarra
Genome biology and evolution 14 (2), evac016, 2022
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