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Literature DB >> 29448176

Mechanisms of phloem loading.

Abstract

The complex form of higher plants requires continuous, balanced transport of nutrients in the phloem. The initial step of transferring sugars, amino acids, and other materials from photosynthetic cells to the conducting sieve tubes is known as phloem loading. Three phloem loading mechanisms have been described. The first involves release of sucrose into the apoplast and subsequent retrieval by the phloem. The initial release step in this process is now known to be mediated by a new class of transporters, the SWEET proteins. In the other two loading mechanisms, polymer trapping and diffusion, sucrose passes into the phloem through cytoplasmic channels, the plasmodesmata. Recent models have shed additional light on these mechanisms and their ability to sustain the growth of even the tallest trees.

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Year: 2018 PMID： 29448176 DOI： 10.1016/j.pbi.2018.01.009

Source DB: PubMed Journal: Curr Opin Plant Biol ISSN： 1369-5266 Impact factor: 7.834

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Cited

17 in total

Review 1. Synchronization of developmental, molecular and metabolic aspects of source-sink interactions.

Authors: Alisdair R Fernie; Christian W B Bachem; Yrjö Helariutta; H Ekkehard Neuhaus; Salomé Prat; Yong-Ling Ruan; Mark Stitt; Lee J Sweetlove; Mechthild Tegeder; Vanessa Wahl; Sophia Sonnewald; Uwe Sonnewald
Journal: Nat Plants Date: 2020-02-10 Impact factor: 15.793

2. Direct Comparison of Leaf Plasmodesma Structure and Function in Relation to Phloem-Loading Type.

Authors: Johannes Liesche; Chen Gao; Piotr Binczycki; Signe R Andersen; Hanna Rademaker; Alexander Schulz; Helle Juel Martens
Journal: Plant Physiol Date: 2019-02-05 Impact factor: 8.340

3. The rice phosphate transporter OsPHT1;7 plays a dual role in phosphorus redistribution and anther development.

Authors: Changrong Dai; Xiaoli Dai; Hongye Qu; Qin Men; Jingyang Liu; Ling Yu; Mian Gu; Guohua Xu
Journal: Plant Physiol Date: 2022-03-28 Impact factor: 8.340

4. Alkaline α-galactosidase 2 (CsAGA2) plays a pivotal role in mediating source-sink communication in cucumber.

Authors: Huan Liu; Xin Liu; Yalong Zhao; Jing Nie; Xuehui Yao; Lijun Lv; Junwei Yang; Ning Ma; Yicong Guo; Yaxin Li; Xueyong Yang; Tao Lin; Xiaolei Sui
Journal: Plant Physiol Date: 2022-06-27 Impact factor: 8.005

5. Transcriptional landscapes of de novo root regeneration from detached Arabidopsis leaves revealed by time-lapse and single-cell RNA sequencing analyses.

Authors: Wu Liu; Yuyun Zhang; Xing Fang; Sorrel Tran; Ning Zhai; Zhengfei Yang; Fu Guo; Lyuqin Chen; Jie Yu; Madalene S Ison; Teng Zhang; Lijun Sun; Hongwu Bian; Yijing Zhang; Li Yang; Lin Xu
Journal: Plant Commun Date: 2022-02-25

6. Assessment of sugar and sugar accumulation-related gene expression profiles reveal new insight into the formation of low sugar accumulation trait in a sweet orange (Citrus sinensis) bud mutant.

Authors: Syed Bilal Hussain; Ling-Xia Guo; Cai-Yun Shi; Muhammad Abbas Khan; Ying-Xing Bai; Wei Du; Yong-Zhong Liu
Journal: Mol Biol Rep Date: 2020-03-24 Impact factor: 2.316

Mechanisms of phloem loading.

Review 1. Synchronization of developmental, molecular and metabolic aspects of source-sink interactions.

2. Direct Comparison of Leaf Plasmodesma Structure and Function in Relation to Phloem-Loading Type.

3. The rice phosphate transporter OsPHT1;7 plays a dual role in phosphorus redistribution and anther development.

4. Alkaline α-galactosidase 2 (CsAGA2) plays a pivotal role in mediating source-sink communication in cucumber.

5. Transcriptional landscapes of de novo root regeneration from detached Arabidopsis leaves revealed by time-lapse and single-cell RNA sequencing analyses.

6. Assessment of sugar and sugar accumulation-related gene expression profiles reveal new insight into the formation of low sugar accumulation trait in a sweet orange (Citrus sinensis) bud mutant.

7. Phosphorylation of SWEET sucrose transporters regulates plant root:shoot ratio under drought.

8. SlSWEET1a is involved in glucose import to young leaves in tomato plants.

Review 9. Primary Metabolism in Citrus Fruit as Affected by Its Unique Structure.

Review 10. Long-Distance Movement of mRNAs in Plants.