Results 181 to 190 of about 19,185 (222)

Legume genome structures and histories inferred from Cercis canadensis and Chamaecrista fasciculata genomes

open access: yesThe Plant Journal, Volume 126, Issue 5, June 2026.
SUMMARY The legume family originated ca. 60–65 million years ago and soon diversified into at least six lineages (now extant subfamilies). The signal of whole genome duplications (WGD) is apparent in species sampled from all six subfamilies. The early diversification has posed difficulties for resolving the legume backbone structure and the timing of ...
Hyun‐oh Lee   +24 more
wiley   +1 more source

Biological and genomic resources for the cosmopolitan phytoplankton Bathycoccus: insights into genetic diversity and function of outlier chromosomes

open access: yesThe Plant Journal, Volume 126, Issue 5, June 2026.
SUMMARY Population‐scale genome sequencing has become essential for exploring genetic diversity and adaptation, particularly in land plants. In contrast, eukaryotic phytoplankton resources remain limited to model reference genomes or community‐level metagenomics, leaving a gap in understanding intraspecific variation and evolutionary processes.
Louis Dennu   +10 more
wiley   +1 more source

Telomere to Telomere Genome Assembly and Efficient Transformation and Genome Editing in Populus euphratica

open access: yes
Plant Biotechnology Journal, Volume 24, Issue 6, Page 4282-4284, June 2026.
Yi An   +7 more
wiley   +1 more source
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Haploid Induction and Genome Instability

Trends in Genetics, 2019
The advent of affordable, large-scale DNA sequencing methods, coupled with advanced computing power, is empowering a detailed analysis of the structure and function of chromosomes. Genomic instability, involving chromosome number and structure changes, has been documented in multiple systems.
Luca Comai, Ek Han Tan
exaly   +3 more sources

Genetic Analysis of Maternal Haploid Inducibility for In Vivo Haploid Induction in Maize

open access: yesAgriculture (Switzerland), 2022
Doubled haploid (DH) technology based on in vivo haploid induction has gradually become the key technology in modern maize breeding. The ability of maternal germplasm to be induced into haploids, inducibility, varies among genotypes. To dissect the genetic basis of maternal haploid inducibility (MHI), an F2 population derived from inbred lines B73 and ...
Jiaojiao Ren, Penghao Wu, Wu Penghao
exaly   +3 more sources

In vivo maternal haploid induction system in cotton

Plant Physiology, 2023
The ghdmp mutant of cotton, generated through the CRISPR system, exhibits a haploid induction rate of 1.06% in F1 progeny as the haploid inducer line.
Lu Long   +8 more
openaire   +2 more sources

In vivo haploid induction in maize

Theoretical and Applied Genetics, 2002
Two haploid-inducing lines, MHI and M741H, were used for the production of maternal haploids. Haploids were obtained from all maternal genotypes involved in the experiment, including dent, flint and flintxdent maize. The maternal genotype had a significant influence on the frequency of haploids obtained. The frequency ranged from 2.7% to 8.0%.
J., Eder, S., Chalyk
openaire   +2 more sources

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