Your search keyword '"Song-system"' showing total 3 results

1. Improved zebra finch brain transcriptome identifies novel proteins with sex differences

Author

He, Jingyan, Fu, Ting, Zhang, Ling, Wanrong Gao, Lucy, Rensel, Michelle, Remage-Healey, Luke, White, Stephanie A, Gedman, Gregory, Whitelegge, Julian, Xiao, Xinshu, and Schlinger, Barney A

Subjects

Biotechnology, Human Genome, Neurosciences, Genetics, Behavioral and Social Science, Animals, Brain, Female, Finches, Humans, Male, Proteome, Sex Characteristics, Transcriptome, Vocalization, Animal, Zebra finch, RNA-seq, SMRT-seq, Song-system, Physiology, Medical Microbiology, Developmental Biology

Abstract

The zebra finch (Taeniopygia guttata), a representative oscine songbird species, has been widely studied to investigate behavioral neuroscience, most notably the neurobiological basis of vocal learning, a rare trait shared in only a few animal groups including humans. In 2019, an updated zebra finch genome annotation (bTaeGut1_v1.p) was released from the Ensembl database and is substantially more comprehensive than the first version published in 2010. In this study, we utilized the publicly available RNA-seq data generated from Illumina-based short-reads and PacBio single-molecule real-time (SMRT) long-reads to assess the bird transcriptome. To analyze the high-throughput RNA-seq data, we adopted a hybrid bioinformatic approach combining short and long-read pipelines. From our analysis, we added 220 novel genes and 8,134 transcript variants to the Ensembl annotation, and predicted a new proteome based on the refined annotation. We further validated 18 different novel proteins by using mass-spectrometry data generated from zebra finch caudal telencephalon tissue. Our results provide additional resources for future studies of zebra finches utilizing this improved bird genome annotation and proteome.

Published

2022

2. Improved zebra finch brain transcriptome identifies novel proteins with sex differences

Author

Jingyan He, Ting Fu, Ling Zhang, Lucy Wanrong Gao, Michelle Rensel, Luke Remage-Healey, Stephanie A. White, Gregory Gedman, Julian Whitelegge, Xinshu Xiao, and Barney A. Schlinger

Subjects

Male, Proteome, Physiology, Vocalization, Behavioral and Social Science, Song-system, Genetics, Animals, Humans, Sex Characteristics, SMRT-seq, Animal, Human Genome, Neurosciences, Brain, General Medicine, Medical Microbiology, Zebra finch, Female, Finches, Vocalization, Animal, RNA-seq, Transcriptome, Biotechnology, Developmental Biology

Abstract

The zebra finch (Taeniopygia guttata), a representative oscine songbird species, has been widely studied to investigate behavioral neuroscience, most notably the neurobiological basis of vocal learning, a rare trait shared in only a few animal groups including humans. In 2019, an updated zebra finch genome annotation (bTaeGut1_v1.p) was released from the Ensembl database and is substantially more comprehensive than the first version published in 2010. In this study, we utilized the publicly available RNA-seq data generated from Illumina-based short-reads and PacBio single-molecule real-time (SMRT) long-reads to assess the bird transcriptome. To analyze the high-throughput RNA-seq data, we adopted a hybrid bioinformatic approach combining short and long-read pipelines. From our analysis, we added 220 novel genes and 8,134 transcript variants to the Ensembl annotation, and predicted a new proteome based on the refined annotation. We further validated 18 different novel proteins by using mass-spectrometry data generated from zebra finch caudal telencephalon tissue. Our results provide additional resources for future studies of zebra finches utilizing this improved bird genome annotation and proteome.

Published

2022

3. Improved zebra finch brain transcriptome identifies novel proteins with sex differences.

Author

He J, Fu T, Zhang L, Wanrong Gao L, Rensel M, Remage-Healey L, White SA, Gedman G, Whitelegge J, Xiao X, and Schlinger BA

Subjects

Animals, Brain, Female, Humans, Male, Proteome genetics, Sex Characteristics, Transcriptome genetics, Vocalization, Animal, Finches genetics

Abstract

The zebra finch (Taeniopygia guttata), a representative oscine songbird species, has been widely studied to investigate behavioral neuroscience, most notably the neurobiological basis of vocal learning, a rare trait shared in only a few animal groups including humans. In 2019, an updated zebra finch genome annotation (bTaeGut1_v1.p) was released from the Ensembl database and is substantially more comprehensive than the first version published in 2010. In this study, we utilized the publicly available RNA-seq data generated from Illumina-based short-reads and PacBio single-molecule real-time (SMRT) long-reads to assess the bird transcriptome. To analyze the high-throughput RNA-seq data, we adopted a hybrid bioinformatic approach combining short and long-read pipelines. From our analysis, we added 220 novel genes and 8,134 transcript variants to the Ensembl annotation, and predicted a new proteome based on the refined annotation. We further validated 18 different novel proteins by using mass-spectrometry data generated from zebra finch caudal telencephalon tissue. Our results provide additional resources for future studies of zebra finches utilizing this improved bird genome annotation and proteome., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022