Qingcheng Li scite author profile

Key message Introgressing one-eighth of synthetic hexaploid wheat genome through a double top-cross plus a twophase selection is an effective strategy to develop high-yielding wheat varieties. Abstract The continued expansion of the world population and the likely onset of climate change combine to form a major crop breeding challenge. Genetic advances in most crop species to date have largely relied on recombination and reassortment within a relatively narrow gene pool. Here, we demonstrate an efficient wheat breeding strategy for improving yield potentials by introgression of multiple genomic regions of de novo synthesized wheat. The method relies on an initial double top-cross (DTC), in which one parent is synthetic hexaploid wheat (SHW), followed by a two-phase selection procedure. A genotypic analysis of three varieties (Shumai 580, Shumai 969 and Shumai 830) released from this program showed that each harbors a unique set of genomic regions inherited from the SHW parent. The first two varieties were generated from very small populations, whereas the third used a more conventional scale of selection since one of bread wheat parents was a pre-breeding material. The three varieties had remarkably enhanced yield potential compared to those developed by conventional breeding. A widely accepted consensus among crop breeders holds that introducing unadapted germplasm, such as landraces, as parents into a breeding program is a risky proposition, since the size of the breeding population required to overcome linkage drag becomes too daunting. However, the success of the proposed DTC strategy has demonstrated that novel variation harbored by SHWs can be accessed in a straightforward, effective manner. The strategy is in principle generalizable to any allopolyploid crop species where the identity of the progenitor species is known.

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Responses of the MicroalgaChlorophytasp. to Bacterial Quorum Sensing Molecules (N-Acylhomoserine Lactones): Aromatic Protein-Induced Self-Aggregation

Zhou

Zhang

et al. 2017

Environ. Sci. Technol.

118

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Bacteria and microalgae often coexist during the recycling of microalgal bioresources in wastewater treatment processes. Although the bacteria may compete with the microalgae for nutrients, they could also facilitate microalgal harvesting by forming algal-bacterial aggregates. However, very little is known about interspecies interactions between bacteria and microalgae. In this study, we investigated the responses of a model microalga, Chlorophyta sp., to the typical quorum sensing (QS) molecules N-acylhomoserine lactones (AHLs) extracted from activated sludge bacteria. Chlorophyta sp. self-aggregated in 200 μm bioflocs by secreting 460-1000 kDa aromatic proteins upon interacting with AHLs, and the settling efficiency of Chlorophyta sp. reached as high as 41%. However, Chlorophyta sp. cells were essentially in a free suspension in the absence of AHLs. Fluorescence intensity of the aromatic proteins had significant (P < 0.05) relationship with the Chlorophyta sp. settleability, and showed a positive correlation, indicating that aromatic proteins helped aggregate microalga. Transcriptome results further revealed up-regulation of synthesis pathways for aromatic proteins from tyrosine and phenylalanine that was assisted by anthranilate accumulation. To the best of our knowledge, this is the first study to confirm that eukaryotic microorganisms can sense and respond to prokaryotic QS molecules.

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Excessive phosphorus caused inhibition and cell damage during heterotrophic growth of Chlorella regularis

Wang

et al. 2018

Bioresource Technology

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Hormesis effects of phosphorus on the viability of Chlorella regularis cells under nitrogen limitation

Yan

et al. 2019

Biotechnol Biofuels

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Background Phosphorus (P) is an essential element of microalgae, which is either required for anabolism or for energy metabolism. When employing a nitrogen limitation strategy to trigger microalgal intracellular lipid accumulation, P supplementation was always simultaneously applied to compensate for the accompanied growth inhibition. Results This study identified that P exerts hormesis effects on microalgae. Slight excess of P (≤ 45 mg L −1 ) under nitrogen limitation condition stimulated the cell growth of Chlorella regularis and achieved a 10.2% biomass production increase. This also improved mitochondrial activity by 25.0% compared to control (P = 5.4 mg L −1 ). The lipid productivity reached 354.38 mg (L d) −1 , which increased by 39.3% compared to control. Such an improvement was caused by the intracellularly stored polyphosphate energy pool. However, large excess of P (250 mg L −1 ) inhibited the cell growth by 38.8% and mitochondrial activity decreased by 71.3%. C. regularis cells showed obvious poisoning status, such as enlarged size, plasmolysis, deformation of cell walls, and disorganization of organelles. This is probably because the over-accumulated P protonated the amide-N and disrupted membrane permeability. Conclusions These results provide new insight into the roles of P in microalgae lipid production: P does not always play a positive role under nitrogen limitation conditions. Electronic supplementary material The online version of this article (10.1186/s13068-019-1458-z) contains supplementary material, which is available to authorized users.

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Quorum sensing molecules in activated sludge could trigger microalgae lipid synthesis

Zhang

et al. 2018

Bioresource Technology

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Qingcheng Li

A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat

Responses of the MicroalgaChlorophytasp. to Bacterial Quorum Sensing Molecules (N-Acylhomoserine Lactones): Aromatic Protein-Induced Self-Aggregation

Excessive phosphorus caused inhibition and cell damage during heterotrophic growth of Chlorella regularis

Hormesis effects of phosphorus on the viability of Chlorella regularis cells under nitrogen limitation

Quorum sensing molecules in activated sludge could trigger microalgae lipid synthesis

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