| 1999 |
NELF (negative elongation factor) is a multisubunit complex that cooperates with DSIF to strongly repress RNA polymerase II elongation; this repression is reversed by P-TEFb-dependent phosphorylation of the Pol II C-terminal domain. The smallest subunit of NELF is identical to RD, a putative RNA-binding protein. |
Purification from HeLa nuclear extract, in vitro transcription elongation assays with DRB, biochemical reconstitution |
Cell |
High |
10199401
|
| 2003 |
NELF contains five polypeptides (A–E): NELF-A has similarity to hepatitis delta antigen and is critical for RNAPII binding and transcriptional pausing; NELF-B is identical to COBRA1 (a BRCA1-associated protein); NELF-C and NELF-D are related to TH1; NELF-B and NELF-C/D are integral subunits that bring NELF-A and NELF-E together. Coexpression of all four proteins in insect cells reconstitutes functionally active NELF. The HDAg-homology region of NELF-A is critical for RNAPII binding. |
Subunit identification, recombinant coexpression in insect cells, in vitro transcription assays with mutant complexes |
Molecular and cellular biology |
High |
12612062
|
| 2003 |
NELF and DSIF cause promoter-proximal pausing of RNA Pol II on the Drosophila hsp70 gene. Immunodepletion of NELF from Drosophila nuclear extract reduced paused polymerase levels. In vivo cross-linking showed NELF and DSIF associate with the hsp70 promoter region before heat shock. After heat shock induction, DSIF and Pol II but not NELF were recruited to chromosomal puffs at hsp70 genes, suggesting NELF dissociates upon activation. |
Immunodepletion from nuclear extract, RNA interference in salivary glands, in vivo protein-DNA cross-linking (ChIP), immunofluorescence on polytene chromosomes |
Genes & development |
High |
12782658
|
| 2000 |
DSIF and NELF associate with the RNA Pol II elongation complex during early transcription elongation and travel with elongation complexes as nascent RNA is synthesized. HIV-1 Tat stimulates P-TEFb-mediated phosphorylation of DSIF and RNA Pol II during elongation to overcome NELF/DSIF repression. |
Stepwise RNA Pol II walking approach, Western blotting, in vitro kinase assay |
The Journal of biological chemistry |
High |
11112772
|
| 2000 |
FACT functions with P-TEFb to relieve DSIF/NELF-mediated transcriptional repression. TFIIH kinase activity is dispensable for this relief, demonstrating that TFIIH-mediated CTD phosphorylation is not involved in regulating FACT and DSIF/NELF activities. FACT acts on naked DNA templates independently of its chromatin activities. |
In vitro transcription elongation assay with purified factors, kinase inhibition experiments |
Molecular cell |
High |
10912001
|
| 2005 |
Drosophila NELF has four subunits analogous to human NELF subunits. Immunodepletion of NELF from Drosophila nuclear extract impairs promoter-proximal pausing on the hsp70 promoter without affecting transcription initiation. ChIP detects NELF at hsp70 and beta1-tubulin promoters; heat shock induction causes marked decrease of NELF at the hsp70 promoter. |
Immunodepletion, in vitro transcription, chromatin immunoprecipitation (ChIP), immunofluorescence on polytene chromosomes |
Nucleic acids research |
High |
15741180
|
| 2006 |
NELF-E RRM adopts a betaalphabetabetaalphabeta fold and binds to HIV TAR RNA. NMR solution structure of the RRM was determined. The RRM binds single-stranded TAR RNA oligoribonucleotides with Kd values in the low-micromolar range. |
NMR solution structure determination, fluorescence equilibrium titration binding assays |
The Biochemical journal |
High |
16898873
|
| 2006 |
NELF-mediated transcriptional pausing has a dual role at the human junB gene: before IL-6 induction, RNAPII, DSIF, and NELF accumulate at ~+50 from TSS; after induction, depletion of NELF enhances junB mRNA both before and after induction, indicating NELF-mediated pausing contributes to negative regulation at both stages. |
Chromatin immunoprecipitation, RNA interference (siRNA knockdown), RT-PCR |
Molecular and cellular biology |
Medium |
16880520
|
| 2007 |
NELF interacts with the nuclear cap-binding complex (CBC) and together they participate in 3'-end processing of replication-dependent histone mRNAs through association with SLBP. Absence of NELF and CBC causes aberrant production of polyadenylated histone mRNAs. NELF is physically associated with histone gene loci and forms distinct intranuclear foci (NELF bodies) that overlap with Cajal bodies and cleavage bodies. |
Co-immunoprecipitation, RNA interference, RT-PCR, chromatin immunoprecipitation, immunofluorescence microscopy |
Molecular cell |
High |
17499042
|
| 2007 |
NELF is associated with the HIV LTR and pauses RNA Pol II at the LTR in a repressed state. NELF depletion increased processive HIV transcription and replication, released paused Pol II, displaced a positioned nucleosome, and increased histone H4 acetylation, linking transcription elongation to chromatin remodeling. |
Chromatin immunoprecipitation, NELF depletion (RNAi), Pol II mapping on LTR, nucleosome positioning analysis |
The Journal of biological chemistry |
High |
17442680
|
| 2008 |
NELF-E RRM undergoes major conformational changes upon RNA binding: the flexible C-terminal region and loop between beta3 and alpha2 show large chemical shift perturbations. RNA binding induces formation of a helix in the C-terminus, resulting in an RNA-bound structure similar to U1A RRM. |
NMR solution structure of RNA-bound NELF-E RRM, chemical shift perturbation analysis |
Biochemistry |
High |
18303858
|
| 2008 |
NELF is concentrated at the 5' ends of ~2,111 genes genome-wide in Drosophila cells (ChIP-chip), and 46 of 56 tested NELF-associated genes display paused Pol II 30–50 nt downstream of TSS. NELF associates with ~39% of GAGA factor-bound genes. NELF associates with ~half of the most highly expressed genes, indicating it is not necessarily a repressor. |
ChIP-chip (genome-wide location analysis), permanganate genomic footprinting for paused Pol II detection |
Molecular and cellular biology |
High |
18332113
|
| 2009 |
NELF-E is predominantly nuclear in GnRH neurons. Mutagenesis of a putative nuclear localization signal results in impaired nuclear expression. NELF knockdown impairs GnRH neuronal migration of NLT cells in vitro. |
Immunofluorescence, NLS mutagenesis, siRNA knockdown with migration assay |
Molecular and cellular endocrinology |
Medium |
20025934
|
| 2009 |
NELF subunits exhibit distinct subcellular localizations including NELF bodies and midbodies; some subunits shuttle actively between nucleus and cytoplasm. Loss of NELF from cells leads to enlarged and/or multiple nuclei. |
Live imaging of GFP-fusion proteins, FRAP, subcellular fractionation, fluorescence microscopy |
Experimental cell research |
Medium |
19245807
|
| 2010 |
DSIF and NELF require a nascent transcript longer than 18 nt to stably associate with the Pol II elongation complex. Spt5 (DSIF) contacts nascent RNA as it emerges from the elongation complex via protein-RNA cross-linking, suggesting DSIF binds via the nascent transcript and subsequently recruits NELF. No NELF-RNA contact was detected when the nascent transcript was between 22–31 nt (the pausing region), suggesting RNA binding by NELF is not required for promoter-proximal pausing. |
Reconstituted Drosophila Pol II elongation complex, protein-RNA cross-linking, DSIF/NELF binding assays with defined RNA lengths |
Proceedings of the National Academy of Sciences of the United States of America |
High |
20534440
|
| 2013 |
The timing between NELF loading onto Pol II and Pol II escape from the promoter determines the location of the promoter-proximal pause. GAF (sequence-specific transcription factor) orchestrates efficient pausing by recruiting NELF to promoters before transcription initiation and by assisting in loading NELF onto Pol II after initiation. |
Permanganate-ChIP-seq (genome-wide), biochemical reconstitution system for promoter-proximal pausing |
Molecular cell |
High |
23746353
|
| 2013 |
NELF interacts with the Integrator complex subunits (INTScom) in an RNA- and DNA-independent manner. Integrator subunits control NELF-mediated RNAPII pause/release at coding genes; INTS11 catalytic subunit is required for RNAPII processivity. NELF-target genes are enriched in TAR/NBE-like elements and 3'-box sequences. |
Co-immunoprecipitation, siRNA knockdown, ChIP, nascent RNA analysis, genome-wide studies |
Nature communications |
High |
25410209
|
| 2013 |
NELF interacts with Pcf11 (a transcription termination factor) to couple RNAP II pausing to premature transcription termination at the HIV LTR. NELF also interacts with the corepressor complex NCoR1-GPS2-HDAC3, which is associated with repressed HIV LTRs. Depleting NELF or Pcf11 in primary CD4+ T cells induces HIV transcription elongation. |
Co-immunoprecipitation, ChIP, siRNA knockdown in primary T cells, HIV transcription assays |
The Journal of biological chemistry |
Medium |
23884411
|
| 2013 |
BRD4 coordinates recruitment of both the pause release factor P-TEFb and the pausing complex NELF/DSIF to IFN-stimulated genes. A BRD4 small-molecule inhibitor blocks IFN-induced recruitment of P-TEFb and NELF/DSIF. NELF knockdown revealed it negatively regulates Pol II passage across ISGs during elongation. |
ChIP, shRNA knockdown, small-molecule BRD4 inhibitor treatment |
Molecular and cellular biology |
Medium |
23589332
|
| 2014 |
NELF-E contains an RNA Recognition Motif (RRM) that binds a consensus NELF-E binding element (NBE: CUGAGGA(U) for Drosophila). An NBE-like element is present in the loop of HIV-1 TAR RNA and is required for high-affinity binding (not the lower stem as previously claimed). NBEs are enriched +20 to +30 nt downstream of TSS genome-wide in paused genes. |
In vitro SELEX, quantitative biochemical binding assays, genome-wide NBE analysis in Drosophila |
PLoS genetics |
High |
24453987
|
| 2014 |
eRNAs interact with the NELF complex and facilitate transient release of NELF from specific target promoters (immediate early genes) during transcriptional activation in neurons. Knockdown of enhancer-specific eRNAs impairs NELF release from promoters and decreases target mRNA induction. Enhancer-promoter chromatin looping enables local eRNA action. |
RNA immunoprecipitation, eRNA knockdown (siRNA), ChIP, chromatin conformation capture |
Molecular cell |
High |
25263592
|
| 2014 |
DSIF and NELF associate with Integrator to specify the correct post-transcriptional fate of snRNA genes. Knockdown of NELF results in misprocessing of U1, U2, U4, and U5 snRNAs, disruption of transcription termination, and induction of polyadenylated U1 transcripts via enhanced recruitment of cleavage stimulation factor. DSIF is required for proper transcription of these snRNA genes. |
Co-immunoprecipitation, RNA interference (siRNA), ChIP, RT-PCR for snRNA processing |
Nature communications |
High |
24968874
|
| 2017 |
The C-terminal peptides of NELF-E and ARS2 bind identically to the nuclear cap-binding complex (CBC), and affinity is enhanced when CBC is bound to a cap analogue. NELF-E and ARS2 compete for the same CBC binding site, forming mutually exclusive complexes: CBC-NELF-E (likely earlier transcription phase) and CBC-ARS2-PHAX (later phase). NELF-E binding to CBC is incompatible with PHAX binding. |
Biochemical binding assays, crystal structure determination of CBC-NELF-E peptide complex |
Nature communications |
High |
29101316
|
| 2017 |
NELF-E and NELF-A are rapidly recruited to DNA double-strand break (DSB) sites in a PARP1-dependent manner. NELF-E is preferentially recruited to DSBs upstream of transcriptionally active genes; RNA Pol II presence is a prerequisite. NELF-E recruitment and its repressive activity are required for switching off transcription at DSBs and for intact repair of DSBs. |
I-SceI endonuclease and CRISPR-Cas9 DSB systems, ChIP, live imaging, transcription and repair assays |
EMBO reports |
High |
28336775
|
| 2018 |
Cryo-EM structure of the paused transcription elongation complex (Pol II-DSIF-NELF) at 3.2 Å. NELF binds the polymerase funnel, bridges two mobile polymerase modules, and contacts the trigger loop, restraining Pol II mobility required for pause release. NELF prevents TFIIS binding. NELF has two flexible 'tentacles' that can contact DSIF and exiting RNA. The paused complex features a tilted DNA-RNA hybrid that impairs NTP substrate binding. |
Cryo-electron microscopy structure determination at 3.2 Å, structural analysis of complex interfaces |
Nature |
High |
30135580
|
| 2020 |
Upon rapid NELF depletion, RNA Pol II fails to be released into gene bodies, stalling instead around the +1 nucleosomal dyad-associated region in a manner independent of P-TEFb. NELF depletion results in global loss of cap-binding complex (CBC) from chromatin without global reduction of nascent transcript 5' cap stability, implicating NELF in early elongation complexes distinct from canonical pause-release. |
Auxin-inducible degron (rapid NELF depletion), PRO-seq, ChIP-seq |
Molecular cell |
High |
32155413
|
| 2021 |
NELF rapidly forms nuclear condensates upon stress (heat, oxidative, osmotic stress) in human cells. Condensate formation requires NELF dephosphorylation and SUMOylation induced by stress. The intrinsically disordered region (IDR) in NELFA is necessary for nuclear NELF condensation and can be functionally replaced by IDRs of FUS or EWSR1. Biomolecular condensation facilitates enhanced recruitment of NELF to promoters upon stress to drive transcriptional downregulation. NELF condensation is required for cellular viability under stressful conditions. |
Live cell imaging, FRAP, SUMOylation assays, dephosphorylation assays, IDR domain swap experiments, ChIP upon stress |
Molecular cell |
High |
33548202
|
| 2021 |
NSMF (Jacob/NSMF protein) localizes rapidly to stalled replication forks and acts as a scaffold to modulate RPA complex formation with CDC5L and ATR/ATRIP. Depletion of NSMF compromises phosphorylation and ubiquitination of RPA2 and the ATR signaling cascade, resulting in genomic instability. NSMF knockout mice exhibited increased genomic instability and hypersensitivity to genotoxic stress. |
Co-immunoprecipitation, immunofluorescence at stalled forks, siRNA knockdown, NSMF knockout mice, ATR signaling assays (phosphorylation, ubiquitination) |
Nucleic acids research |
High |
33963872
|
| 2022 |
eRNAs stimulate Pol II pause release by making multiple allosteric contacts with NELF subunits -A and -E to trigger efficient NELF detachment from paused Pol II. eRNA function requires length >200 nucleotides and unpaired guanosines; it does not require common structural or sequence motifs. |
In vitro NELF-eRNA binding assays, cross-linking mass spectrometry, eRNA length/structure mutants, pause release functional assays |
Nature communications |
High |
35508485
|
| 2022 |
ERK phosphorylates NELF-A upon growth factor stimulation, causing dissociation of NELF from paused Pol II at promoter-proximal regions of immediate-early genes to allow productive elongation. PP2A efficiently dephosphorylates NELF-A, preventing aberrant IEG expression. In cancer cells, decreased PP2A activity combined with oncogene-mediated ERK activation induces NELF-A phosphorylation and IEG upregulation. |
In vitro kinase assay (ERK→NELF-A), phosphorylation site identification (MS), ChIP, growth factor stimulation experiments, PP2A inhibitor treatment |
Nature communications |
High |
36463234
|
| 2023 |
NSMF physically interacts with RPA at DNA damage sites. NSMF selectively displaces RPA in weakly bound 8- and 20-nucleotide binding modes from ssDNA, allowing retention of stable RPA molecules in the 30-nt binding mode. The 30-nt binding mode of RPA enhances RPA32 phosphorylation by ATR, and phosphorylated RPA becomes stabilized on ssDNA. |
Co-immunoprecipitation, single-molecule DNA binding assays, purified protein biochemical assays, RPA binding mode analysis |
Nucleic acids research |
High |
37378431
|
| 2023 |
NELF-depleted Drosophila cells recapitulate NELF-independent pausing observed in fission yeast. Only NELF-mediated pausing establishes a strict requirement for Cdk9 kinase activity for Pol II pause release into productive elongation. In NELF-depleted cells, Cdk9 inhibition fails to shut down transcription efficiently, allowing non-productive transcription to continue. |
NELF depletion in Drosophila cells, Cdk9 inhibition, PRO-seq, genetic epistasis analysis |
Nature communications |
High |
37179384
|
| 2023 |
Crystal structure of the human NELF-B/C/E ternary complex was solved at high resolution. Detailed interaction interfaces between subunits were characterized, and residues important for the NELF-B and NELF-E association were identified. |
X-ray crystallography |
Biochemical and biophysical research communications |
High |
37591184
|
| 2024 |
NELF depletion increased utilization of downstream transcription start sites and caused genome-wide loss of H3K4me3-marked nucleosomes. NELF depletion had minimal effect on paused transcript levels and almost no effect on productive elongation control, redefining NELF as a factor that focuses initiation sites and maintains promoter chromatin architecture rather than primarily controlling pause-release. |
Auxin-inducible degradation of NELFB, PRO-seq (nascent RNA), DFF-ChIP (chromatin architecture) |
Nucleic acids research |
High |
38197272
|
| 2016 |
Jacob (encoded by the Nsmf gene) mediates BDNF-induced NMDAR-dependent nuclear translocation in early development. Nuclear import of Jacob results in increased phosphorylation of CREB and enhanced CREB-dependent Bdnf gene transcription. Nsmf knockout mice show reduced hippocampal Bdnf mRNA and protein, reduced pCREB, hippocampal dysplasia with fewer synapses, simplified dendrites, reduced LTP, and deficits in hippocampus-dependent learning. BDNF application rescues morphological deficits in Jacob-deficient hippocampal neurons. |
Nsmf knockout mouse generation, immunofluorescence for nuclear translocation, CREB phosphorylation assays, Bdnf mRNA/protein quantification, electrophysiology (LTP), BDNF rescue experiments |
PLoS genetics |
High |
26977770
|
| 2020 |
NELF-E interacts with BRCA1 and promotes BRCA1 recruitment to laser-microirradiated DSB sites. NELF-E deficiency reduces BRCA1 and RAD51 IRIF formation, impairs homology-directed repair (HDR) of chromosomal DSBs, and sensitizes HCC cells to PARP inhibition (synthetic lethality). |
Co-immunoprecipitation, laser microirradiation with live imaging, IRIF assays, CRISPR-Cas9 HDR assay, PARP inhibitor sensitivity assay |
DNA repair |
High |
33248388
|
| 2012 |
Haploinsufficiency of NELF-A (WHSC2) in Wolf-Hirschhorn syndrome patient cells contributes to: delayed progression from S-phase into M-phase, reduced DNA replication in asynchronous culture, and altered chromatin assembly (reduced histone-chromatin association, elevated soluble chaperone-bound histone H3, increased MNase sensitivity). Cells also show increased sensitivity to camptothecin-induced inhibition of DNA replication. |
Patient-derived cell lines with differing 4p deletions, cell cycle analysis, DNA replication assays, chromatin fractionation, MNase digestion, drug sensitivity assays |
Human molecular genetics |
Medium |
22328085
|
| 2021 |
NELF-A subunit interacts with the ecdysone receptor (EcR) in Drosophila and the NELF complex is recruited to promoters and enhancers of 20E-dependent genes. NELF depletion causes significant decrease in 20E-induced transcription, disruption of Pol II elongation complexes, and a considerable reduction in promoter-bound Spt5 (DSIF subunit), suggesting NELF stabilizes the Pol II-DSIF complex. |
Co-immunoprecipitation (NELF-A/EcR), ChIP at 20E-dependent promoters, NELF depletion with nascent RNA analysis |
Scientific reports |
Medium |
33420323
|
| 2015 |
CTCF knockdown abrogates RNAP II pausing at c-myc by affecting DSIF recruitment. CTCF knockdown causes a termination defect on U2 snRNA genes by affecting NELF recruitment. CTCF is also required for recruitment of P-TEFb, which phosphorylates NELF, DSIF, and Ser2 of RNAP II CTD. |
ChIP, CTCF siRNA knockdown, RNAP II pausing and termination assays |
Transcription |
Medium |
26399478
|
| 2013 |
NELF-A and NELF-B independently act as competitive decelerators at steps downstream of glucocorticoid receptor (GR) action to attenuate GR-mediated gene induction and reduce partial agonist activity. A conserved motif in NELF-A and NELF-B is required for full modulatory activity. ChIP assays show NELF-B diminishes GR recruitment to promoter regions of endogenous genes. |
Competition transcription assays, ChIP, stable NELF-B knockdown, domain mutagenesis |
The Journal of biological chemistry |
Medium |
24097989
|
| 2024 |
Acute loss of NELF-C globally redistributes termination factors and perturbs Pol II transcription termination independently of promoter-proximal Pol II pausing. This drives pervasive Pol II transcription into DNA replication initiation zones, causing transcription-replication conflict that blocks cell cycle transition into S phase. |
Auxin-dependent NELF-C degradation, nascent transcript sequencing (TT-seq/NET-seq), termination factor ChIP |
EMBO reports |
High |
41721097
|
| 2026 |
NSMF deficiency impairs replication fork progression under stress conditions in colorectal cancer cells, resulting in DNA damage accumulation, growth arrest, and senescence. NSMF overexpression provides resistance to oncogene-induced replication stress, enabling cancer cells to evade senescence. In ApcMin/+ mice, Nsmf knockout selectively induces replication-dependent DNA damage in tumor tissues. |
NSMF knockout in ApcMin/+ mice, replication fork progression assays, DNA damage markers, senescence assays, NSMF overexpression experiments |
Nucleic acids research |
Medium |
41533586
|
| 2026 |
HSPA1A and DNAJB1 regulate NELF condensate dynamics during heat shock recovery. DNAJB1 recognizes NELFA's tentacle domain and facilitates HSPA1A recruitment, preventing aberrant NELF aggregation and enabling timely condensate disassembly. Disruption of NELF condensate dynamics causes persistent NELFA phosphorylation, impaired chromatin association, destabilized Pol II pausing, and premature release of non-productive Pol II complexes. |
Nanobody-based proximity labeling (NbPro), Co-IP, live imaging, domain mapping, ChIP, nascent RNA analysis |
Molecular cell |
High |
41653920
|