NIH #5R35GM156470-02
Exploring new approaches for enhanced human gene annotation
- Amount
- $388K
- Period
- 2025-01-01 → 2029-11-30
- PIs
- 1
- Est. capacity / PI
- ~4 students
Genomics and Phylogenetic Studies · Molecular Biology
2 total · 2 active
NIH #5R35GM156470-02
NIH #1R35GM156470-01
Student capacity is a rough estimate from remaining award size, split equally among PIs. Actual funding decisions vary.
Direct collaborators. Node size = influence, colour = community, dashed = past collaboration.
Assembly and quantification of transcripts from noisy long reads with NIFFLR
F1000Research · 2025-12-03
eLife · 2025-10-30 · 1 citations
2025-10-30
Comprehensive Transcriptome Annotation of Thousands of HIV-1 GenomesPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2025-09-26
2025-09-09
eLife · 2025-09-09
Translon: a single term for translated regions
Nature Methods · 2025-09-01 · 14 citations
Genome biology · 2025-08-28 · 1 citations
eLife · 2025-07-22 · 2 citations
eLife · 2025-07-22 · 3 citations
2025-07-22
Assembly and quantification of transcripts from noisy long reads with NIFFLRPreprint
F1000Research · 2025-06-20
StringTie3 Improves Total RNA-seq Assembly by Resolving Nascent and Mature TranscriptsPreprint
Nature Methods · 2025-05-26 · 8 citations
Efficient evidence-based genome annotation with EviAnnPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2025-05-12 · 9 citations
Isoswitching in human brain development and agingPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2025-05-09
bioRxiv (Cold Spring Harbor Laboratory) · 2025-03-23
Combining DNA and protein alignments to improve genome annotation with LiftOn
Genome Research · 2024-12-27 · 20 citations
Splam: a deep-learning-based splice site predictor that improves spliced alignments
Genome biology · 2024-09-16 · 20 citations