Single-molecule localization and diffusivity microscopy reveals dynamic biomolecular organization in living cells
Dr. Wulan Deng published a paper in Nature Methods.
Single-molecule tracking in living cells measures protein diffusivity but requires sparse imaging, limiting high-density mapping. Here we introduce single-molecule localization and diffusivity microscopy (SMLDM), a deep learning-based approach that accurately estimates single-molecule movement tracks and diffusion coefficients directly from single-frame snapshots, eliminating the need for trajectory linking. Implemented as mobility photoactivated localization microscopy (MPALM) with bright photoactivatable fluorophores and U-Net-based single-molecule segmentation, this method achieves a 50- to 300-fold increase in data density compared to conventional tracking-based approaches, generating high-density, spatially super-resolved maps of molecular diffusivity and organization in living human cells. We applied MPALM to diverse dynamic cellular processes, uncovering nucleosome clustering into low-mobility chromatin domains, pathway-biased μ-opioid receptor dynamic clustering, focal adhesion movement and nonuniform molecular diffusivity and microcondensate organization during early droplet coalescence. SMLDM provides a powerful tool for resolving biomolecular organization and dynamics at single-molecule resolution in live cells.
- GEX3 interacts with GEX2 to function in gamete attachment and plasma membrane fusion in Arabidopsis2026.05.08
- Hijacking the host clock: A nematode effector antagonizes soybean circadian defense and translation control2026.05.08
- Single-molecule localization and diffusivity microscopy reveals dynamic biomolecular organization in living cells2026.04.30
- Transition From Land to Sea: Comparative Genomics Illuminates the Adaptive Evolution of the Intertidal Spider2026.04.28
- Mapping immune imprinting zones enables predictive vaccination optimization2026.04.20
- Sensitive monitoring of enhancer and noncoding RNA transcription via ribozyme-assisted RNA editing2026.04.20
- The birth, death, and evolutionary compensation of uORFs in Drosophila2026.03.27
- Decoding disease-relevant variants with base and prime editors at scale2026.03.23
- Grass inflorescence morphodynamics guides yield improvement in wheat2026.03.16
- Cell-free chromatin state tracing reveals disease origin and therapy responses2026.03.05
- Quantification and transcriptome profiling reveal abundant, dynamic and translatable dephospho-CoA-capped RNAs2026.03.05
- Complement C3 recognition by C3 convertases2026.02.21
- The contributions of two fertilization events to the fertilization recovery efficiency in Arabidopsis2026.02.11
- Soybean RNA polymerases IV and V repress defense response genes and plant immunity2026.02.10
- The Arabidopsis Transcription Factor TCP4 Controls Seed Size by Repressing the MINI3-SHB1-IKU Pathway2026.02.10
- The Japanese Archipelago sheltered cave lions, not tigers, during the Late Pleistocene2026.01.27
- An ancient genome duplication event drives the development and evolution of spinnerets in spiders2026.01.15
- Single-strand deaminase-assisted editing for functional RNA manipulation2026.01.07
- Arabidopsis IONIC CURRENT FAMILY A proteins facilitate environmental calcium acquisition essential for stress tolerance2026.01.06
- Mechanisms of aristolochic acid resistance in specialist butterflies and evolutionary insights for potential protective pathways2026.01.05
- FOCAS: Transcriptome-wide screening of individual m6A sites functionally dissects epitranscriptomic control of gene expression in cancer2026.01.05
- Human FcRL5 is an Fc receptor that simultaneously engages two IgGs2026.01.02
- Duet between stress granules and glutathionylation regulates cytosolic redox state to maintain proteostasis in Arabidopsis2025.12.22
- Effects of protected areas on human-induced shifts in nocturnal activity in mammal communities in southwestern China2025.12.15
- Advancing aquatic biodiversity assessments of invertebrates using eDNA metabarcoding: A systematic evaluation of primers for marine and freshwater communities2025.12.12
- PKL mediates H3K4me2 modification and spatial gene congregation in chromatin regulation2025.12.09
- FeaSion decodes the regulatory landscape and functional diversity of RNA polymerase II CTD phosphorylation2025.12.01
- The late arrival of domestic cats in China via the Silk Road after 3,500 years of human-leopard cat commensalism2025.11.28
- Computational design of a high-precision mitochondrial DNA cytosine base editor2025.11.18
- Xenopus IgX informs engineering strategies of IgM and IgG hexamers2025.11.07
- The Structure and Mechanism of Energy Transfer in Phycobilisomes2025.10.28
- K11- and K29-ubiquitination-mediated nuclear translocation of glycolytic enzyme aldolase A promotes pancreatic cancer progression by NF-κB activation2025.10.23
- Pervasive sex-dependent effects in the genetic architecture of starvation resistance in Drosophila melanogaster2025.09.29
- Ancient genomics reveals the origin, dispersal and human management of East Asian domestic pigs2025.09.26
- INO80/SWR remodelers regulate Pol II transcription through BRD2 and chromatin landscape2025.09.22
- The cellular epigenetic blueprint of plant regeneration2025.09.18
- Light signal transduction in plants: insights from phytochrome nuclear translocation and photobody formation2025.09.16
- Robust passive sampling of airborne environmental DNA to monitor plants and animals2025.09.11
- Natural variation in CHELATASE SUBUNITI-A increases grain weight and enhances wheat yield2025.09.02
- Glycan shielding enables TCR-sufficient allogeneic CAR-T therapy2025.08.22
- Self-splicing RNA circularization facilitated by intact group I and II introns2025.08.12
- Co-profiling of in situ RNA-protein interactions and transcriptome in single cells and tissues2025.08.11
- PRC1-Mediated H2Aub Loop Formation and Function in Arabidopsis2025.08.11
- PRC2 regulates cytokinin and HD-ZIP III pathways to orchestrate vascular tissue pattern formation in Arabidopsis2025.08.11
- Calcium-dependent oligomerization of scavenger receptor CD163 facilitates the endocytosis of ligands2025.07.23
- Plant microRNA maturation and function2025.07.23
- An alternate receptor for adeno-associated viruses2025.07.15
- Genome synthesis in plants2025.07.09
- RNA codon expansion via programmable pseudouridine editing and decoding2025.07.04
- Prime editor-based high-throughput screening reveals functional synonymous mutations in human cells2025.06.26
- Structures of butyrophilin multimers reveal a plier-like mechanism for Vγ9Vδ2 T cell receptor activation2025.06.12
- A FtsZ cis disassembly element acts in Z-ring assembly during bacterial cell division2025.06.09
- Upstream open reading frames buffer translational variability during Drosophila evolution and developmen2025.06.09
- The pigment transporter Redboy confers programmed body colour transition in orchid mantis2025.05.30
- Interpretable niche-based cell‒cell communication inference using multi-view graph neural networks2025.05.29
- Functions and therapeutic applications of pseudouridylation2025.05.27
- Ingenious male–female communication ensures successful double fertilization in Angiosperms2025.05.26
- Upstream open reading frames dynamically modulate CLOCK protein translation to regulate circadian rhythms and sleep2025.05.16
- Mild and ultrafast GLORI enables absolute quantification of m6A methylome from low-input samples2025.05.08
- Root microbiota regulates tiller number in rice2025.04.24
- A two-step self-pollination mechanism maximizes fertility in Brassicaceae2025.04.15
- Advances in Spatial Omics Technologies2025.04.06
- The emerging role of protein l-lactylation in metabolic regulation and cell signalling2025.04.04
- DNA–protein binding is dominated by short anchoring elements2025.04.01
- Massively parallel interrogation of human functional variants modulating cancer immunosurveillance2025.03.21
- Crop root bacterial and viral genomes reveal unexplored species and microbiome patterns2025.03.13
- CTDP1 and RPB7 stabilize Pol II and permit reinitiation2025.03.05
- Genome-coverage single-cell histone modifications for embryo lineage tracing2025.03.04
- Molecular glue for phycobilisome attachment to photosystem II in Synechococcus sp. PCC 70022025.02.17
- Learning Phenotype Associated Signature in Spatial Transcriptomics with PASSAGE2025.02.12
- Dynamic changes in 3D chromatin structure during the two rounds of mitosis in plant male gametogenesis2025.02.12
- Precise modelling of mitochondrial diseases using optimized mitoBEs2025.01.23
- MicroRNA analysis reveals two modules that antagonistically regulate xylem tracheary element development in Arabidopsis2025.01.19
- Promoter capture Hi-C identifies promoter-related loops and fountain structures in Arabidopsis2025.01.02
- Quantifying the regulatory potential of genetic variants via a hybrid sequence-oriented model with SVEN2025.01.02
- Mapping functional elements of the DNA damage response through base editor screens2024.12.16
- The Arabidopsis RING-type E3 ligase TEAR4 Controls Seed Germination by Targeting RGA for Degradation2024.12.05
- Development of an inducible DNA barcoding system to understand lineage changes in Arabidopsis regeneration2024.11.26
- EMF1 functions as a 3D chromatin modulator in Arabidopsis2024.11.22
- PWOs repress gene transcription by regulating chromatin structures in Arabidopsis2024.11.22
- Multifaceted roles of TCP transcription factors in fate determination2024.10.28
- CD98hc promotes drug resistance in extranodal natural killer/T cell lymphoma through tumor cell–derived small extracellular vesicles2024.09.30
- CD5L associates with IgM via the J chain2024.09.30
- Genome-wide impact of codon usage bias on translation optimization in Drosophila melanogaster2024.09.30
- Functional profiling of serine, threonine and tyrosine sites2024.09.24
- Light-induced remodeling of phytochrome B enables signal transduction by phytochrome-interacting factor2024.09.24
- m6A-modified cenRNA stabilizes CENPA to ensure centromere integrity in cancer cells2024.09.23
- Proteasome resides in and dismantles plant heat stress granules constitutively2024.08.22
- Structural insights into the high-affinity IgE receptor FcεRI complex2024.08.22
- DNA polymerase δ subunit Pol32 binds histone H3-H4 and couples nucleosome assembly with Okazaki fragment processing2024.08.13
- Programmable DNA pyrimidine base editing via engineered uracil-DNA glycosylase2024.08.03
- A replisome-associated histone H3-H4 chaperone required for epigenetic inheritance2024.08.02
- Lysine L-lactylation is the dominant lactylation isomer induced by glycolysis2024.07.22
- Structure and topography of the synaptic V-ATPase–synaptophysin complex2024.06.06
- The microRNA408–plantacyanin module balances plant growth and drought resistance by regulating reactive oxygen species homeostasis in guard cells2024.05.16
- From sub-Saharan Africa to China: Evolutionary history and adaptation of Drosophila melanogaster revealed by population genomics2024.04.19
- Origin of functional de novo genes in humans from “hopeful monsters”2024.04.16
- Arabidopsis transcription factor TCP4 controls the identity of the apical gynoecium2024.04.08
- Adaptive Functions of Structural Variants in Human Brain Developmen2024.04.07
- Architecture and activation of human muscle phosphorylase kinase2024.04.01