1.
Williams LE, Lemoine R, Sauer N: Sugar transporters in higher plants--a diversity of roles and complex regulation. Trends in plant science 2000, 5(7):283-290.
2.
Metcalfe CR: Distribution of Latex in the Plant Kingdom. Economic Botany 1967, 21(2):115-127.
3.
Lewinsohn TM: The geographical distribution of plant latex. Chemoecology 1991, 2(1):64-68.
4.
Lalonde S, Tegeder M, Throne‐Holst M, Frommer WB, Patrick JW: Phloem loading and unloading of sugars and amino acids. Plant Cell & Environment 2003, 26(1):37-56.
5.
Sauer N: Molecular physiology of higher plant sucrose transporters. FEBS letters 2007, 581(12):2309-2317.
6.
Reinders A, Sivitz AB, Ward JM: Evolution of plant sucrose uptake transporters. Frontiers in plant science 2012, 3:22.
7.
Giaquinta R: Phloem Loading of Sucrose: pH Dependence and Selectivity. Plant physiology 1977, 59(4):750-755.
8.
Chang AB, Lin R, Keith SW, Tran CV, Jr SM: Phylogeny as a guide to structure and function of membrane transport proteins. Molecular Membrane Biology 2004, 21(3):171.
9.
Riesmeier JW, Willmitzer L, Frommer WB: Evidence for an essential role of the sucrose transporter in phloem loading and assimilate
partitioning. The EMBO journal 1994, 13(1):1-7.
10.
Gottwald JR, Krysan PJ, Young JC, Evert RF, Sussman MR: Genetic evidence for the in planta role of phloem-specific plasma membrane sucrose
transporters. Proceedings of the National Academy of Sciences of the United States of America 2000, 97(25):13979-13984.
11.
Sivitz AB, Reinders A, Ward JM: Arabidopsis sucrose transporter AtSUC1 is important for pollen germination and sucrose-induced
anthocyanin accumulation. Plant physiology 2008, 147(1):92.
12.
Slewinski TL, Meeley R, Braun DM: Sucrose transporter1 functions in phloem loading in maize leaves. Journal of experimental botany 2009, 60(3):881-892.
13.
Tupy J: The level and distribution pattern of latex sucrose along the trunk of Hevea brasiliensis
Mull. arg. as affected by the sink region induced by latex tapping. Physiologie vaegaetale 1973a, 11(1):1-11.
14.
Eschbach JM, Tupý J, Lacrotte R: Photosynthate allocation and productivity of latex vessels inHevea brasiliensis. Biologia Plantarum 1986, 28(5):321-328.
15.
Jacob J, Serres E, Prévôt J, Lacrotte R, Vidal A, Eschbach J, d’Auzac J: Development of Hevea latex diagnosis. Agritrop 1988, 12:97-115.
16.
Silpi U, Chantuma P, Kasemsap P, Thaler P, Thanisawanyangkura S, Lacointe A, Améglio
T, Gohet E: Sucrose and metabolism distribution patterns in the latices of three Hevea brasiliensis
clones: effects of tapping and stimulation on the tree trunk. Journal of Rubber Research 2006, 9(2):115-131.
17.
Silpi U, Lacointe A, Kasempsap P, Thanysawanyangkura S, Chantuma P, Gohet E, Musigamart
N, Clément A, Améglio T, Thaler P: Carbohydrate reserves as a competing sink: evidence from tapping rubber trees. Tree Physiology 2007, 27(6):881.
18.
Tang C, Huang D, Yang J, Liu S, Sakr S, Li H, Zhou Y, Qin Y: The sucrose transporter HbSUT3 plays an active role in sucrose loading to laticifer
and rubber productivity in exploited trees of Hevea brasiliensis (para rubber tree). Plant, cell & environment 2010, 33(10):1708-1720.
19.
Dusotoit-Coucaud A, Kongsawadworakul P, Maurousset L, Viboonjun U, Brunel N, Pujade-Renaud
V, Chrestin H, Sakr S: Ethylene stimulation of latex yield depends on the expression of a sucrose transporter
(HbSUT1B) in rubber tree (Hevea brasiliensis). Tree Physiol 2010, 30(12):1586-1598.
20.
Yang J: Molecular Cloning and Sequence Analysis of Six Sucrose Transporter Genes from Hevea
brasiliensis(para rubber tree). Chinese Journal of Tropical Crops 2007.
21.
Endler A, Meyer S, Schelbert S, Schneider T, Weschke W, Peters SW, Keller F, Baginsky
S, Martinoia E, Schmidt UG: Identification of a vacuolar sucrose transporter in barley and Arabidopsis mesophyll
cells by a tonoplast proteomic approach. Plant physiology 2006, 141(1):196-207.
22.
Reinders A, Sivitz AB, Starker CG, Gantt JS, Ward JM: Functional analysis of LjSUT4, a vacuolar sucrose transporter from Lotus japonicus. Plant molecular biology 2008, 68(3):289-299.
23.
Schulz A, Beyhl D, Marten I, Wormit A, Neuhaus E, Poschet G, Buttner M, Schneider
S, Sauer N, Hedrich R: Proton-driven sucrose symport and antiport are provided by the vacuolar transporters
SUC4 and TMT1/2. The Plant journal : for cell and molecular biology 2011, 68(1):129-136.
24.
Payyavula RS, Tay KH, Tsai CJ, Harding SA: The sucrose transporter family in Populus: the importance of a tonoplast PtaSUT4 to
biomass and carbon partitioning. The Plant journal : for cell and molecular biology 2011, 65(5):757-770.
25.
Radchuk V, Riewe D, Peukert M, Matros A, Strickert M, Radchuk R, Weier D, Steinbiß
H, Sreenivasulu N, Weschke W et al: Down-regulation of the sucrose transporters HvSUT1 and HvSUT2 affects sucrose homeostasis
along its delivery path in barley grains. Journal of experimental botany 2017, 68(16):4595-4612.
26.
Auzac JD, Chrestin H, Marin B, Lioret C: A plant vacuolar system: The lutoids from Hevea brasiliensis latex. Physiologie Vegetale 1982, 20(2):311-331.
27.
Tang C, Qi J, Li H, Zhang C, Wang Y: A convenient and efficient protocol for isolating high-quality RNA from latex of Hevea
brasiliensis (para rubber tree). Journal of biochemical and biophysical methods 2007, 70(5):749-754.
28.
Li H, Qin Y, Xiao X, Tang C: Screening of valid reference genes for real-time RT-PCR data normalization in Hevea
brasiliensis and expression validation of a sucrose transporter gene HbSUT3. Plant science : an international journal of experimental plant biology 2011, 181(2):132-139.
29.
Li HP: Study on expression profiles of sucrose treansporter HbSUT5 from Hevea brasiliensis. Master. Hainan University; 2010.
30.
Yu H, Jiang W, Liu Q, Zhang H, Piao M, Chen Z, Bian M: Expression pattern and subcellular localization of the ovate protein family in rice. PloS one 2015, 10(3):e0118966.
31.
Reinders A, Ward JM: Functional characterization of the alpha-glucoside transporter Sut1p from Schizosaccharomyces
pombe, the first fungal homologue of plant sucrose transporters. Molecular microbiology 2001, 39(2):445-454.
32.
Xin L, Yang J: An Improved Promoter-cloning Method Based on Adaptor-PCR and Its Application in Rubber
Tree. Bulletin of Botanical Research 2012, 32(3):296-303.
33.
Chen S, Songkumarn P, Liu J, Wang GL: A versatile zero background T-vector system for gene cloning and functional genomics. Plant physiology 2009, 150(3):1111-1121.
34.
Yang Y, Li R, Qi M: In vivo analysis of plant promoters and transcription factors by agroinfiltration
of tobacco leaves. The Plant journal : for cell and molecular biology 2000, 22(6):543-551.
35.
Zheng L, Liu G, Meng X, Li Y, Wang Y: A versatile Agrobacterium-mediated transient gene expression system for herbaceous
plants and trees. Biochemical genetics 2012, 50(9-10):761-769.
36.
Krogh A, Larsson B, von Heijne G, Sonnhammer EL: Predicting transmembrane protein topology with a hidden Markov model: application
to complete genomes. Journal of molecular biology 2001, 305(3):567-580.
37.
Sakurai J, Ahamed A, Murai M, Maeshima M, Uemura M: Tissue and Cell-Specific Localization of Rice Aquaporins and Their Water Transport
Activities. Plant & cell physiology 2008, 49(1):30-39.
38.
Tang C, Yang M, Fang Y, Luo Y, Gao S, Xiao X, An Z, Zhou B, Zhang B, Tan X: The rubber tree genome reveals new insights into rubber production and species adaptation. Nature Plants 2016, 2(6):16073.
39.
Delrot S, Bonnemain JL: Involvement of Protons as a Substrate for the Sucrose Carrier during Phloem Loading
in Vicia faba Leaves. Plant physiology 1981, 67(3):560-564.
40.
Lacrotte R, Van dS, H, Chrestin H: Ethylene influence on the use of exogenous sucrose by the laticiferous cell in Hevea
brasiliensis: proposition for action mechanism [ethrel, ATPase, rubber, latex, rubber
tree]. Physiologie Vegetale 1985.
41.
Dusotoit-Coucaud A, Brunel N, Kongsawadworakul P, Viboonjun U, Lacointe A, Julien
JL, Chrestin H, Sakr S: Sucrose importation into laticifers of Hevea brasiliensis, in relation to ethylene
stimulation of latex production. Annals of botany 2009, 104(4):635-647.
42.
Pakianathan S, Boatman S, Taysum D: Particle aggregation following dilution of Hevea latex: a possible mechanism for the
closure of latex vessels after tapping. J Rubb Res Inst Malaya 1966, 19:259-271.
43.
Tupy J: The Regulation of Invertase Activity in the Latex of Hevea brasiliensis Muell. Arg.
THE EFFECTS OF GROWTH REGULATORS, BARK WOUNDING, AND LATEX TAPPING. Journal of experimental botany 1973b, 24(80):516-524.
44.
Abe H, Urao T, Ito T, Seki M, Shinozaki K, Yamaguchishinozaki K: Arabidopsis AtMYC2 (bHLH) and AtMYB2 (MYB) Function as Transcriptional Activators
in Abscisic Acid Signaling. The Plant cell 2003, 15(1):63-78.
45.
Lee BH, Henderson DA, Zhu JK: The Arabidopsis cold-responsive transcriptome and its regulation by ICE1. The Plant cell 2005, 17(11):3155-3175.
46.
Hartmann U, Sagasser M, Mehrtens F, Stracke R, Weisshaar B: Differential combinatorial interactions of cis-acting elements recognized by R2R3-MYB,
BZIP, and BHLH factors control light-responsive and tissue-specific activation of
phenylpropanoid biosynthesis genes. Plant molecular biology 2005, 57(2):155-171.
47.
Bate N, Twell D: Functional architecture of a late pollen promoter: pollen-specific transcription is
developmentally regulated by multiple stage-specific and co-dependent activator elements. Plant molecular biology 1998, 37(5):859-869.
48.
Gowik U, Burscheidt J, Akyildiz M, Schlue U, Koczor M, Streubel M, Westhoff P: cis-Regulatory elements for mesophyll-specific gene expression in the C4 plant Flaveria
trinervia, the promoter of the C4 phosphoenolpyruvate carboxylase gene. The Plant cell 2004, 16(5):1077-1090.
49.
Pauli S, Rothnie HM, Chen G, He X, Hohn T: The Cauliflower Mosaic Virus 35S Promoter Extends into the Transcribed Region. Journal of Virology 2004, 78(22):12120-12128.
50.
Lam E, Chua NH: ASF-2: a factor that binds to the cauliflower mosaic virus 35S promoter and a conserved
GATA motif in Cab promoters. The Plant cell 1989, 1(12):1147-1156.
51.
Sakai H, Aoyama T, Oka A: Arabidopsis ARR1 and ARR2 response regulators operate as transcriptional activators. Plant Journal 2000, 24(6):703–711.
52.
Yanagisawa S: Dof1 and Dof2 transcription factors are associated with expression of multiple genes
involved in carbon metabolism in maize. The Plant journal : for cell and molecular biology 2000, 21(3):281-288.
53.
Matsukura C, Saitoh T, Hirose T, Ohsugi R, Perata P, Yamaguchi J: Sugar uptake and transport in rice embryo. Expression of companion cell-specific sucrose
transporter (OsSUT1) induced by sugar and light. Plant physiology 2000, 124(1):85-93.
54.
Milne RJ, Perroux JM, Rae AL, Reinders A, Ward JM, Offler CE, Patrick JW, Grof CP:
Sucrose Transporter Localization and Function in Phloem Unloading in Developing Stems. Plant physiology 2017, 173(2):1330-1341.
55.
Leach KA, Tran TM, Slewinski TL, Meeley RB, Braun DM: Sucrose transporter2 contributes to maize growth, development, and crop yield. Journal of integrative plant biology 2017.
56.
Ma QJ, Sun MH, Liu YJ, Lu J, Hu DG, Hao YJ: Molecular cloning and functional characterization of the apple sucrose transporter
gene MdSUT2. Plant physiology and biochemistry : PPB 2016, 109:442-451.
57.
Sun A, Dai Y, Zhang X, Li C, Meng K, Xu H, Wei X, Xiao G, Ouwerkerk PB, Wang M et al: A transgenic study on affecting potato tuber yield by expressing the rice sucrose
transporter genes OsSUT5Z and OsSUT2M. Journal of integrative plant biology 2011, 53(7):586-595.
58.
Frost CJ, Nyamdari B, Tsai CJ, Harding SA: The tonoplast-localized sucrose transporter in Populus (PtaSUT4) regulates whole-plant
water relations, responses to water stress, and photosynthesis. PloS one 2012, 7(8):e44467.
59.
Wang TD, Zhang HF, Wu ZC, Li JG, Huang XM, Wang HC: Sugar uptake in the Aril of litchi fruit depends on the apoplasmic post-phloem transport
and the activity of proton pumps and the putative transporter LcSUT4. Plant & cell physiology 2015, 56(2):377-387.
60.
Weise A, Barker L, Kuhn C, Lalonde S, Buschmann H, Frommer WB, Ward JM: A new subfamily of sucrose transporters, SUT4, with low affinity/high capacity localized
in enucleate sieve elements of plants. The Plant cell 2000, 12(8):1345-1355.
61.
Neuhaus HE: Transport of primary metabolites across the plant vacuolar membrane. FEBS letters 2007, 581(12):2223-2226.
62.
Foresti O, De Marchis F, de Virgilio M, Klein EM, Arcioni S, Bellucci M, Vitale A:
Protein domains involved in assembly in the endoplasmic reticulum promote vacuolar
delivery when fused to secretory GFP, indicating a protein quality control pathway
for degradation in the plant vacuole. Molecular plant 2008, 1(6):1067-1076.
63.
Hara-Nishimura I, Hatsugai N: The role of vacuole in plant cell death. Cell death and differentiation 2011, 18(8):1298-1304.
64.
Schneider S, Hulpke S, Schulz A, Yaron I, Holl J, Imlau A, Schmitt B, Batz S, Wolf
S, Hedrich R et al: Vacuoles release sucrose via tonoplast-localised SUC4-type transporters. Plant biology 2012, 14(2):325-336.
65.
Flemetakis E, Dimou M, Cotzur D, Efrose RC, Aivalakis G, Colebatch G, Udvardi M, Katinakis
P: A sucrose transporter, LjSUT4, is up-regulated during Lotus japonicus nodule development. Journal of experimental botany 2003, 54(388):1789-1791.
66.
Li Y, Li LL, Fan RC, Peng CC, Sun HL, Zhu SY, Wang XF, Zhang LY, Zhang DP: Arabidopsis sucrose transporter SUT4 interacts with cytochrome b5-2 to regulate seed
germination in response to sucrose and glucose. Molecular plant 2012, 5(5):1029-1041.
67.
Chincinska IA, Liesche J, Krugel U, Michalska J, Geigenberger P, Grimm B, Kuhn C:
Sucrose transporter StSUT4 from potato affects flowering, tuberization, and shade
avoidance response. Plant physiology 2008, 146(2):515-528.
68.
Auzac J, Jacob JL, Prévôt JC, Clément A, Gallois R, Crestin H, Lacote R, Pujade-Renaud
V, Gohet E: The regulation of cis-polyisoprene production (natural rubber) from Hevea brasiliensis. In: Asia-Pacific Forum on Science Learning and Teaching: 1997. 17.
69.
Liu S, Lan J, Zhou B, Qin Y, Zhou Y, Xiao X, Yang J, Gou J, Qi J, Huang Y et al: HbNIN2, a cytosolic alkaline/neutral-invertase, is responsible for sucrose catabolism
in rubber-producing laticifers of Hevea brasiliensis (para rubber tree). The New phytologist 2015, 206(2):709-725.
70.
Duan C, Rio M, Leclercq J, Bonnot F, Oliver G, Montoro P: Gene expression pattern in response to wounding, methyl jasmonate and ethylene in
the bark of Hevea brasiliensis. Tree Physiol 2010, 30(10):1349-1359.