Alexander Bucksch
Overview
Explore the profile of Alexander Bucksch including associated specialties, affiliations and a list of published articles.
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Articles
26
Citations
576
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Recent Articles
1.
Pietrzyk P, Phan-Udom N, Chutoe C, Pingault L, Roy A, Libault M, et al.
J Exp Bot
. 2024 Sep;
76(2):285-298.
PMID: 39269014
As with phenotyping of any microscopic appendages, such as cilia or antennae, phenotyping of root hairs has been a challenge due to their complex intersecting arrangements in two-dimensional images and...
2.
Kawa D, Thiombiano B, Shimels M, Taylor T, Walmsley A, Vahldick H, et al.
Cell Rep
. 2024 Mar;
43(4):113971.
PMID: 38537644
Sorghum bicolor is among the most important cereals globally and a staple crop for smallholder farmers in sub-Saharan Africa. Approximately 20% of sorghum yield is lost annually in Africa due...
3.
Swetnam T, Antin P, Bartelme R, Bucksch A, Camhy D, Chism G, et al.
PLoS Comput Biol
. 2024 Feb;
20(2):e1011270.
PMID: 38324613
CyVerse, the largest publicly-funded open-source research cyberinfrastructure for life sciences, has played a crucial role in advancing data-driven research since the 2010s. As the technology landscape evolved with the emergence...
4.
Swartz L, Liu S, Dahlquist D, Kramer S, Walter E, McInturf S, et al.
Plant J
. 2023 Sep;
116(6):1600-1616.
PMID: 37733751
The first draft of the Arabidopsis genome was released more than 20 years ago and despite intensive molecular research, more than 30% of Arabidopsis genes remained uncharacterized or without an...
5.
Egea G, Bucksch A, Thygesen L
Front Plant Sci
. 2022 Dec;
13:1079022.
PMID: 36483954
No abstract available.
6.
Roy A, Bucksch A
Curr Opin Plant Biol
. 2021 Dec;
64:102151.
PMID: 34864319
Trichomes show 47 morphological phenotypes, while literature reports only two root hair phenotypes in all plants. However, could hair-like structures exist below-ground in a similar wide range of morphologies like...
7.
Liu S, Barrow C, Hanlon M, Lynch J, Bucksch A
Plant Physiol
. 2021 Oct;
187(2):739-757.
PMID: 34608967
The development of crops with deeper roots holds substantial promise to mitigate the consequences of climate change. Deeper roots are an essential factor to improve water uptake as a way...
8.
Kawa D, Taylor T, Thiombiano B, Musa Z, Vahldick H, Walmsley A, et al.
J Exp Bot
. 2021 Aug;
72(22):7970-7983.
PMID: 34410382
Two sorghum varieties, Shanqui Red (SQR) and SRN39, have distinct levels of susceptibility to the parasitic weed Striga hermonthica, which have been attributed to different strigolactone composition within their root...
9.
Dale R, Oswald S, Jalihal A, LaPorte M, Fletcher D, Hubbard A, et al.
Front Plant Sci
. 2021 Aug;
12:687652.
PMID: 34354723
The study of complex biological systems necessitates computational modeling approaches that are currently underutilized in plant biology. Many plant biologists have trouble identifying or adopting modeling methods to their research,...
10.
Schneider H, Lor V, Hanlon M, Perkins A, Kaeppler S, Borkar A, et al.
Plant Cell Environ
. 2021 Jun;
45(3):837-853.
PMID: 34169548
Crops with reduced nutrient and water requirements are urgently needed in global agriculture. Root growth angle plays an important role in nutrient and water acquisition. A maize diversity panel of...