Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0

Various molecular techniques based on omics (transcriptomics, proteomics, and genomics) and phylogenetics have been applied in biological sciences. Molecular dynamics have become quantitative tools, allowing researchers from multiple disciplines to design different studies. Molecular-based technique...

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Publicado em: MDPI - Multidisciplinary Digital Publishing Institute 2024
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PRE
HY5
MBW
SSB
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collection Directory of Open Access Books
description Various molecular techniques based on omics (transcriptomics, proteomics, and genomics) and phylogenetics have been applied in biological sciences. Molecular dynamics have become quantitative tools, allowing researchers from multiple disciplines to design different studies. Molecular-based techniques can be comprehensive and systematic, as they allow identification, resolve genetic differences, facilitate molecular docking, and create prediction models of ecological niches and taxonomic ranks. Investigating genomics, proteomics, and phylogenetic techniques requires a novel class of DNA elements, such as microsatellites from mitochondria and chloroplast and retrotransposons, resulting in genetic variations using molecular data. The advantages and limitations of molecular approaches have been well studied and acknowledged. The combination of molecular phylogenetic and omics techniques, expressions, and pathways may greatly increase our capacity to understand and develop new molecular mechanisms and stress responses in biological systems. Furthermore, these techniques offer extensive opportunities for researchers to develop targeted therapy approaches and disease diagnoses using molecular data. It is necessary to evaluate and explore how data from diverse molecular techniques can be applied to different biological studies. The study and application of molecular approaches are significant in advancing genomics, proteomics, and phylogenetic techniques in biological sciences.
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spelling doab-20.500.12854ir-1377862024-05-14T14:27:25Z Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0 Zaman, Wajid climate change crops genetic improvement HLH PRE fast-growth shoot elongation moso bamboo transcription factor flowering AT-hook gene family Juglans regia hypocotyl Phylogenetics root-lesion nematode genome ultra-low DNA input contigs sequencing BUSCO diploid TCP transcription factor nodulation nitrate concentration anthocyanin biosynthesis purple tomato HY5 MBW PIFs phytochemicals flavonoids metastasis prevention signaling pathways sirtuins SIRT6 gene expression aging inflammation metabolism aging pathomechanism physical activity proteomics coconut cultivars solid endosperm maturation stages carbohydrate and lipid metabolisms TMT-SPS-MS3 cornea mesenchymal stem cells exosomes corneal diseases corneal regeneration lenalidomide pomalidomide cereblon bioinformatics zinc finger microarray RNA-seq teratogen transcriptome graph analgesia alloknesis antinociception interleukin-31 (IL-31) interleukin receptor A (IL-31RA) IL-31 receptor A-deficient (IL-31RAKI) mice itch pain metabarcoding bacterioplankton community 16S rRNA Candidatus Pelagibacter Pseudoalteromonas Vibrio pathogenic bacteria autophagy nitrogen starvation whole-genome bisulfite sequencing (WGBS) hormone maize haploid chromosome doubling paclitaxel caffeine–taurine colchicine anticancer 5-fluorouracil SSB anticancer drug single-stranded DNA-binding protein SsbA crystal structure docking conformational change DNA extraction complex samples next-generation sequencing metagenomics microbiome bioreactor cucurbits ethylene omics sex differentiation female development Primulina eburnea MYB transcription factor gene family drought stress genes genomic resources sea urchin n/a thema EDItEUR::U Computing and Information Technology::UY Computer science Various molecular techniques based on omics (transcriptomics, proteomics, and genomics) and phylogenetics have been applied in biological sciences. Molecular dynamics have become quantitative tools, allowing researchers from multiple disciplines to design different studies. Molecular-based techniques can be comprehensive and systematic, as they allow identification, resolve genetic differences, facilitate molecular docking, and create prediction models of ecological niches and taxonomic ranks. Investigating genomics, proteomics, and phylogenetic techniques requires a novel class of DNA elements, such as microsatellites from mitochondria and chloroplast and retrotransposons, resulting in genetic variations using molecular data. The advantages and limitations of molecular approaches have been well studied and acknowledged. The combination of molecular phylogenetic and omics techniques, expressions, and pathways may greatly increase our capacity to understand and develop new molecular mechanisms and stress responses in biological systems. Furthermore, these techniques offer extensive opportunities for researchers to develop targeted therapy approaches and disease diagnoses using molecular data. It is necessary to evaluate and explore how data from diverse molecular techniques can be applied to different biological studies. The study and application of molecular approaches are significant in advancing genomics, proteomics, and phylogenetic techniques in biological sciences. 2024-05-14T14:27:16Z 2024-05-14T14:27:16Z 2024 book ONIX_20240514_9783725806003_382 9783725806003 9783725805990 https://directory.doabooks.org/handle/20.500.12854/137786 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9021 https://mdpi.com/books/pdfview/book/9021 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-0599-0 10.3390/books978-3-7258-0599-0 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725806003 9783725805990 378 open access
spellingShingle climate change
crops
genetic improvement
HLH
PRE
fast-growth
shoot elongation
moso bamboo
transcription factor
flowering
AT-hook gene family
Juglans regia
hypocotyl
Phylogenetics
root-lesion nematode
genome
ultra-low DNA input
contigs
sequencing
BUSCO
diploid
TCP transcription factor
nodulation
nitrate concentration
anthocyanin biosynthesis
purple tomato
HY5
MBW
PIFs
phytochemicals
flavonoids
metastasis prevention
signaling pathways
sirtuins
SIRT6
gene expression
aging
inflammation
metabolism
aging pathomechanism
physical activity
proteomics
coconut cultivars
solid endosperm
maturation stages
carbohydrate and lipid metabolisms
TMT-SPS-MS3
cornea
mesenchymal stem cells
exosomes
corneal diseases
corneal regeneration
lenalidomide
pomalidomide
cereblon
bioinformatics
zinc finger
microarray
RNA-seq
teratogen
transcriptome
graph
analgesia
alloknesis
antinociception
interleukin-31 (IL-31)
interleukin receptor A (IL-31RA)
IL-31 receptor A-deficient (IL-31RAKI) mice
itch
pain
metabarcoding
bacterioplankton community
16S rRNA
Candidatus Pelagibacter
Pseudoalteromonas
Vibrio
pathogenic bacteria
autophagy
nitrogen starvation
whole-genome bisulfite sequencing (WGBS)
hormone
maize haploid
chromosome doubling
paclitaxel
caffeine–taurine
colchicine
anticancer
5-fluorouracil
SSB
anticancer drug
single-stranded DNA-binding protein
SsbA
crystal structure
docking
conformational change
DNA extraction
complex samples
next-generation sequencing
metagenomics
microbiome
bioreactor
cucurbits
ethylene
omics
sex differentiation
female development
Primulina eburnea
MYB transcription factor
gene family
drought stress
genes
genomic resources
sea urchin
n/a
thema EDItEUR::U Computing and Information Technology::UY Computer science
Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title_full Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title_fullStr Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title_full_unstemmed Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title_short Molecular World Today and Tomorrow: Recent Trends in Biological Sciences 2.0
title_sort molecular world today and tomorrow recent trends in biological sciences 2 0
topic climate change
crops
genetic improvement
HLH
PRE
fast-growth
shoot elongation
moso bamboo
transcription factor
flowering
AT-hook gene family
Juglans regia
hypocotyl
Phylogenetics
root-lesion nematode
genome
ultra-low DNA input
contigs
sequencing
BUSCO
diploid
TCP transcription factor
nodulation
nitrate concentration
anthocyanin biosynthesis
purple tomato
HY5
MBW
PIFs
phytochemicals
flavonoids
metastasis prevention
signaling pathways
sirtuins
SIRT6
gene expression
aging
inflammation
metabolism
aging pathomechanism
physical activity
proteomics
coconut cultivars
solid endosperm
maturation stages
carbohydrate and lipid metabolisms
TMT-SPS-MS3
cornea
mesenchymal stem cells
exosomes
corneal diseases
corneal regeneration
lenalidomide
pomalidomide
cereblon
bioinformatics
zinc finger
microarray
RNA-seq
teratogen
transcriptome
graph
analgesia
alloknesis
antinociception
interleukin-31 (IL-31)
interleukin receptor A (IL-31RA)
IL-31 receptor A-deficient (IL-31RAKI) mice
itch
pain
metabarcoding
bacterioplankton community
16S rRNA
Candidatus Pelagibacter
Pseudoalteromonas
Vibrio
pathogenic bacteria
autophagy
nitrogen starvation
whole-genome bisulfite sequencing (WGBS)
hormone
maize haploid
chromosome doubling
paclitaxel
caffeine–taurine
colchicine
anticancer
5-fluorouracil
SSB
anticancer drug
single-stranded DNA-binding protein
SsbA
crystal structure
docking
conformational change
DNA extraction
complex samples
next-generation sequencing
metagenomics
microbiome
bioreactor
cucurbits
ethylene
omics
sex differentiation
female development
Primulina eburnea
MYB transcription factor
gene family
drought stress
genes
genomic resources
sea urchin
n/a
thema EDItEUR::U Computing and Information Technology::UY Computer science
topic_facet climate change
crops
genetic improvement
HLH
PRE
fast-growth
shoot elongation
moso bamboo
transcription factor
flowering
AT-hook gene family
Juglans regia
hypocotyl
Phylogenetics
root-lesion nematode
genome
ultra-low DNA input
contigs
sequencing
BUSCO
diploid
TCP transcription factor
nodulation
nitrate concentration
anthocyanin biosynthesis
purple tomato
HY5
MBW
PIFs
phytochemicals
flavonoids
metastasis prevention
signaling pathways
sirtuins
SIRT6
gene expression
aging
inflammation
metabolism
aging pathomechanism
physical activity
proteomics
coconut cultivars
solid endosperm
maturation stages
carbohydrate and lipid metabolisms
TMT-SPS-MS3
cornea
mesenchymal stem cells
exosomes
corneal diseases
corneal regeneration
lenalidomide
pomalidomide
cereblon
bioinformatics
zinc finger
microarray
RNA-seq
teratogen
transcriptome
graph
analgesia
alloknesis
antinociception
interleukin-31 (IL-31)
interleukin receptor A (IL-31RA)
IL-31 receptor A-deficient (IL-31RAKI) mice
itch
pain
metabarcoding
bacterioplankton community
16S rRNA
Candidatus Pelagibacter
Pseudoalteromonas
Vibrio
pathogenic bacteria
autophagy
nitrogen starvation
whole-genome bisulfite sequencing (WGBS)
hormone
maize haploid
chromosome doubling
paclitaxel
caffeine–taurine
colchicine
anticancer
5-fluorouracil
SSB
anticancer drug
single-stranded DNA-binding protein
SsbA
crystal structure
docking
conformational change
DNA extraction
complex samples
next-generation sequencing
metagenomics
microbiome
bioreactor
cucurbits
ethylene
omics
sex differentiation
female development
Primulina eburnea
MYB transcription factor
gene family
drought stress
genes
genomic resources
sea urchin
n/a
thema EDItEUR::U Computing and Information Technology::UY Computer science
url ONIX_20240514_9783725806003_382