Lamina-associated domains: Tethers and looseners
Lamina-associated domains (LADs) are large heterochromatic regions that are positioned at
the nuclear lamina (NL). A major question is how LAD–NL interactions are mediated and …
the nuclear lamina (NL). A major question is how LAD–NL interactions are mediated and …
[HTML][HTML] The broad spectrum of LMNA cardiac diseases: from molecular mechanisms to clinical phenotype
S Crasto, I My, E Di Pasquale - Frontiers in Physiology, 2020 - frontiersin.org
Mutations of Lamin A/C gene (LMNA) cause laminopathies, a group of disorders associated
with a wide spectrum of clinically distinct phenotypes, affecting different tissues and organs …
with a wide spectrum of clinically distinct phenotypes, affecting different tissues and organs …
[PDF][PDF] Pathogenic LMNA variants disrupt cardiac lamina-chromatin interactions and de-repress alternative fate genes
PP Shah, W Lv, JH Rhoades, A Poleshko, D Abbey… - Cell Stem Cell, 2021 - cell.com
Pathogenic mutations in LAMIN A/C (LMNA) cause abnormal nuclear structure and
laminopathies. These diseases have myriad tissue-specific phenotypes, including dilated …
laminopathies. These diseases have myriad tissue-specific phenotypes, including dilated …
Functional mechanisms and abnormalities of the nuclear lamina
A Karoutas, A Akhtar - Nature Cell Biology, 2021 - nature.com
Alterations in nuclear shape are present in human diseases and ageing. A compromised
nuclear lamina is molecularly interlinked to altered chromatin functions and genomic …
nuclear lamina is molecularly interlinked to altered chromatin functions and genomic …
The nuclear lamina
X Wong, AJ Melendez-Perez… - Cold Spring Harbor …, 2022 - cshperspectives.cshlp.org
Lamins interact with a host of nuclear membrane proteins, transcription factors, chromatin
regulators, signaling molecules, splicing factors, and even chromatin itself to form a nuclear …
regulators, signaling molecules, splicing factors, and even chromatin itself to form a nuclear …
Lamin C is required to establish genome organization after mitosis
Background The dynamic 3D organization of the genome is central to gene regulation and
development. The nuclear lamina influences genome organization through the tethering of …
development. The nuclear lamina influences genome organization through the tethering of …
Lamin A/C and vimentin as a coordinated regulator during amoeboid migration in microscale confined microenvironments
YJ Wang, H Liang, Y Liu, Q Bao, S Yang, XX Xu… - Nano Letters, 2023 - ACS Publications
Cell migration occurs in confined microenvironments, which plays a vital role in the process
of tumor metastasis. However, it is challenging to study their behaviors in vivo. Here we …
of tumor metastasis. However, it is challenging to study their behaviors in vivo. Here we …
Maintaining transcriptional specificity through mitosis
K Ito, KS Zaret - Annual review of genomics and human …, 2022 - annualreviews.org
Virtually all cell types have the same DNA, yet each type exhibits its own cell-specific pattern
of gene expression. During the brief period of mitosis, the chromosomes exhibit changes in …
of gene expression. During the brief period of mitosis, the chromosomes exhibit changes in …
[HTML][HTML] Diversity of nuclear lamin A/C action as a key to tissue-specific regulation of cellular identity in health and disease
A Malashicheva, K Perepelina - Frontiers in cell and developmental …, 2021 - frontiersin.org
A-type lamins are the main structural components of the nucleus, which are mainly localized
at the nucleus periphery. First of all, A-type lamins, together with B-type lamins and proteins …
at the nucleus periphery. First of all, A-type lamins, together with B-type lamins and proteins …