5.9
CiteScore
5.9
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2014 Vol. 41, No. 12

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Original research
SPOROCYTELESS Is a Novel Embryophyte-Specific Transcription Repressor that Interacts with TPL and TCP Proteins in Arabidopsis
Guang-Hui Chen, Jia-Ying Sun, Man Liu, Jie Liu, Wei-Cai Yang
2014, 41(12): 617-625. doi: 10.1016/j.jgg.2014.08.009
Abstract (81) HTML PDF (4)
Abstract:
Germlines in plants are formed de novo during post-embryonic development, while little is known about the mechanism that controls this process. In Arabidopsis, the earliest gene controlling this process is SPOROCYTELESS (SPL). A decade ago, we showed that loss of SPL function abolished sporogenesis in both male and female organs of Arabidopsis. However, its function is unclear up to now. In this study, we showed that SPL belongs to a novel transcription repressor family specific in embryophyte, which consists of 173 members in the land plants so far. All of them contain a conserved SPL-motif in their N-terminal and an ethylene-responsive element binding factor-associated amphiphilic repression (EAR) motif in the C-terminal, therefore designated as SPL-like, EAR-containing proteins (SPEARs). Consistently, SPL acts as a transcriptional repressor in yeast and tobacco cells, and SPEAR proteins are able to form homodimer and/or heterodimer with each otherin vitro. Furthermore, SPEARs interact with the TOPLESS (TPL) co-repressors via the EAR motif and TCP family transcription factors in yeast cells. Together, we propose that SPL and SPEARs most likely belong to a novel transcription repressor family in land plants which may play a variety of developmental roles in plants.
G-Quadruplex (G4) Motifs in the Maize (Zea mays L.) Genome Are Enriched at Specific Locations in Thousands of Genes Coupled to Energy Status, Hypoxia, Low Sugar, and Nutrient Deprivation
Carson M. Andorf, Mykhailo Kopylov, Drena Dobbs, Karen E. Koch, M. Elizabeth Stroupe, Carolyn J. Lawrence, Hank W. Bass
2014, 41(12): 627-647. doi: 10.1016/j.jgg.2014.10.004
Abstract (123) HTML PDF (0)
Abstract:
The G-quadruplex (G4) elements comprise a class of nucleic acid structures formed by stacking of guanine base quartets in a quadruple helix. This G4 DNA can form within or across single-stranded DNA molecules and is mutually exclusive with duplex B-form DNA. The reversibility and structural diversity of G4s make them highly versatile genetic structures, as demonstrated by their roles in various functions including telomere metabolism, genome maintenance, immunoglobulin gene diversification, transcription, and translation. Sequence motifs capable of forming G4 DNA are typically located in telomere repeat DNA and other non-telomeric genomic loci. To investigate their potential roles in a large-genome model plant species, we computationally identified 149,988 non-telomeric G4 motifs in maize (Zea mays L., B73 AGPv2), 29% of which were in non-repetitive genomic regions. G4 motif hotspots exhibited non-random enrichment in genes at two locations on the antisense strand, one in the 5′ UTR and the other at the 5′ end of the first intron. Several genic G4 motifs were shown to adopt sequence-specific and potassium-dependent G4 DNA structures in vitro. The G4 motifs were prevalent in key regulatory genes associated with hypoxia (group VII ERFs), oxidative stress (DJ-1/GATase1), and energy status (AMPK/SnRK) pathways. They also showed statistical enrichment for genes in metabolic pathways that function in glycolysis, sugar degradation, inositol metabolism, and base excision repair. Collectively, the maize G4 motifs may represent conditional regulatory elements that can aid in energy status gene responses. Such a network of elements could provide a mechanistic basis for linking energy status signals to gene regulation in maize, a model genetic system and major world crop species for feed, food, and fuel.
Letter to the Editor
Differential Notch Activity Is Required for Homeostasis of Malpighian Tubules in Adult Drosophila
Zhouhua Li, Sen Liu, Yu Cai
2014, 41(12): 649-652. doi: 10.1016/j.jgg.2014.11.001
Abstract (102) HTML PDF (7)
Abstract:
Snapshot of Structural Variations in the Tibetan Wild Boar Genome at Single-Nucleotide Resolution
Lei Chen, Long Jin, Mingzhou Li, Shilin Tian, Tiandong Che, Qianzi Tang, Jing Lan, Zhi Jiang, Ruiqiang Li, Yiren Gu, Xuewei Li, Jinyong Wang
2014, 41(12): 653-657. doi: 10.1016/j.jgg.2014.10.001
Abstract (67) HTML PDF (0)
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Two Novel QTLs for Heading Date Are Identified Using a Set of Chromosome Segment Substitution Lines in Rice (Oryza sativa L.)
Guojing Shen, Yongzhong Xing
2014, 41(12): 659-662. doi: 10.1016/j.jgg.2014.08.008
Abstract (73) HTML PDF (0)
Abstract:
Chromosomal Constitutions and Reactions to Powdery Mildew and Stripe Rust of Four Novel Wheat–Thinopyrum intermedium Partial Amphiploids
Yinguang Bao, Xia Wu, Chao Zhang, Xingfeng Li, Fang He, Xiaolei Qi, Honggang Wang
2014, 41(12): 663-666. doi: 10.1016/j.jgg.2014.11.003
Abstract (60) HTML PDF (1)
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