Biochemistry, Genetics and Molecular Biology
Saccharomyces cerevisiae
100%
Gene Expression
64%
Evolutionary Adaptation
59%
Genetics
55%
Dynamics
50%
Messenger RNA
47%
RNA
44%
Transcription Factors
41%
DNA Sequence
40%
DNA Microarray
38%
Copy-Number Variation
37%
Single-Nucleotide Polymorphism
36%
Gene Regulatory Network
35%
Genetic Divergence
26%
Gene Interaction
23%
Y Chromosome
23%
Regulatory Network
22%
Cell Growth
21%
Reconstruction
20%
Genotyping
19%
Transporter Genes
18%
Glutamine
18%
RNA Sequencing
17%
Gene Expression Profiling
16%
Microsatellite DNA
15%
Mutation Rate
15%
RNA Sequence
14%
Saccharomyces cerevisiae
14%
Genetic Variation
14%
Metabolic Pathway
13%
Catabolite Repression
13%
Spike
12%
Gene Deletion
12%
Melting Temperature
12%
Temperature Sensitive Mutant
11%
Influenza Virus
11%
Base Calling
11%
DNA Mismatch Repair
11%
Illumina Dye Sequencing
11%
Body Mass
11%
Melting Point
11%
Mouse
11%
Morphology
11%
Candida Albicans
11%
Loss of Heterozygosity
11%
N-Myc
11%
Chromosomal Rearrangement
11%
Amino Acid Transporter
11%
Balancing Selection
11%
Molecular Biology
11%
Immunology and Microbiology
Saccharomyces cerevisiae
40%
Dynamics
36%
Gene Expression
35%
Influenza
35%
Evolutionary Adaptation
33%
Chemostat
28%
Copy Number Variation
26%
Budding Yeast
25%
Lineages
21%
Genetic Variability
20%
Whole Genome Sequencing
17%
Taxon
17%
Genetic Variation
16%
Gene Amplification
14%
Influenza Virus
13%
Biofilm
11%
Vaccination Policy
11%
Metabolism
11%
Spike
11%
RNA Sequencing
11%
Body Mass
11%
Morphology
11%
Quantitative Trait Locus
11%
Metagenome
11%
Microbiome
11%
Soil Microflora
11%
Reassortment
11%
Balancing Selection
11%
Transcription Factors
11%
Ribosome
11%
Transcriptome
11%
Blastomere
11%
Continuous Culture
11%
Bacterium Culture
11%
Severe Acute Respiratory Syndrome Coronavirus 2
11%
Amplicon Sequencing
11%
Codon
11%
Y Chromosome
11%
Mouse
11%
DNA Sequence
11%
Influenzavirus A
11%
Prokaryote
11%
Virus Evolution
11%
Gene Deletion
10%
Inverted Repeat
9%
Cell Population
8%
Point Mutation
7%
Gene Frequency
7%
Gene Structure
7%
Single Nucleotide Polymorphism
7%
Keyphrases
Evolutionary Adaptation
13%
Computational Structure Prediction
11%
Mutation Discovery
11%
NDRG1
11%
Virus Reassortment
11%
Short Tandem Repeat
11%
Complex Chromosomal Rearrangement
11%
Population Divergence Time
11%
Multiple Transcripts
11%
Network Reverse Engineering
11%
Isothermal Melting
11%
Mode of Action Analysis
11%
Melting Probe
11%
Activity Inference
11%
Transcription Factor
11%
Heterozygous Genome
11%
Loss of Heterozygosity
11%
Limb-girdle muscular Dystrophy
11%
Maximum Likelihood Theory
11%
Transporter Genes
11%
FLO11
11%
Copy number Variation
11%
Multiple Loci
11%
Invasive Growth
11%
Segregants
11%
Amino Acid Transporter
11%
Super-resolution Microscopy
11%
Non-genetic
11%
Gene Signature
11%
Mutational Tolerance
11%
Phenotypic Outcome
11%
Molecular Convergence
11%
Microbial Experimental Evolution
11%
Shape-adaptive
11%
Molecular Constraints
11%
Nutrient-poor
11%
Cycle Stress
11%
Babel
11%
Wide Detection
11%
Single Base
11%
Candidate Disease Genes
11%
H3K56ac
11%
MLH1
11%
Gross Chromosomal Rearrangements
11%
Recessive Lethal
11%
Molecular Specificity
11%
Amphotericin B
11%
Constraint Shapes
11%
TORC1 Pathway
11%
RNA Kinetics
11%