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Synonyms:
   Phyllostachys (bamboo) 

Broader Terms:
   Bambuseae 
   Phyllostachys (bamboo) 
   Poaceae (grass) 
   Tettigoniidae (katydids) 

More Specific:
   Phyllostachys acuta 
   Phyllostachys aurea (golden bamboo) 
   Phyllostachys aureosulcata (yellow grove bamboo) 
   Phyllostachys bambusoides (Japanese timber bamboo) 
   Phyllostachys bissetii 
   Phyllostachys dulcis (sweetshoot bamboo) 
   Phyllostachys edulis (tortoise shell bamboo) 
   Phyllostachys flexuosa (drooping timber bamboo) 
   Phyllostachys glauca 
   Phyllostachys heteroclada (fishscale bamboo) 
   Phyllostachys meyeri (Meyer's bamboo) 
   Phyllostachys montana 
   Phyllostachys nigra (black bamboo) 
   Phyllostachys nitidula 
   Phyllostachys praecox 
   Phyllostachys pubescens (pubescent bamboo) 
   Phyllostachys rubromarginata (reddish bamboo) 
   Phyllostachys viridiglaucescens (greenwax golden bamboo) 
   Phyllostachys viridis (bamboo) 
   Phyllostachys vivax (running giant bamboo) 
 
 
Latest Articles on Phyllostachys sp. from uBioRSS
Estimation of biomass and carbon storage of moso bamboo (Phyllostachys pube... - Forestry - current issue
Changes in radiocesium contamination from Fukushima in foliar parts of 10 c... - PubMed: species


Phyllostachys vivax
USDA-NRCS PLANTS Database

External Resources:

Common Names: bamboo



1.  Comprehensive Analysis of Five Phyllostachys edulis SQUA-like Genes and Their Potential Functions in Flower Development.LinkIT
Zhang Y, Zhang J, Song M, Lin X, Tong Z, Ding M
International journal of molecular sciences, 2021
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

2.  A regulatory network driving shoot lignification in rapidly growing bamboo.LinkIT
Yang K, Li L, Lou Y, Zhu C, Li X, Gao Z
Plant physiology, 2021
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

3.  First Report of Leaf Spot Disease on Cinnamomum camphora (Camphor tree) Caused by Epicoccum poaceicola in China.LinkIT
Li D, Zhang T, Song Q, Liu J, Zhang H, Luan F
Plant disease, 2021
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

4.  Analysis of 427 genomes reveals moso bamboo population structure and genetic basis of property traits.LinkIT
Zhao H, Sun S, Ding Y, Wang Y, Yue X, Du X, Wei Q, Fan G, Sun H, Lou Y, Yang H, Wang J, Xu X, Li L, Yang K, Xu H, Wang J, Zhu C, Wang S, Shan X, Hou Y, Wang Y, Fei B, Liu X, Jiang Z, Gao Z
Nature communications, 2021
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

5.  In vitro fecal fermentation characteristics of bamboo shoot (Phyllostachys edulis) polysaccharide.LinkIT
Li Q, Wu W, Chen H, Fang X, Han Y, Xie M, Gao H
Food chemistry: X, 2021
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

6.  The genome sequence provides insights into salt tolerance of Achnatherum splendens (Gramineae), a constructive species of alkaline grassland.LinkIT
Ren G, Jiang Y, Li A, Yin M, Li M, Mu W, Wu Y, Liu J
Plant biotechnology journalPlant Biotechnol JThe genome sequence provides insights into salt tolerance of Achnatherum splendens (Gramineae), a constructive species of alkaline grassland.10.1111/pbi.13699Achnatherum splendens Trin. (Gramineae) is a constructive species of the arid grassland ecosystem in Northwest China and is a major forage grass. It has good tolerance of salt and drought stress in alkaline habitats. Here, we report its chromosome-level genome, determined through a combination of Illumina HiSeq sequencing, PacBio sequencing and Hi-C technology. The final assembly of the ?1.17 Gb genome sequence had a super-scaffold N50 of 40.3 Mb. A total of 57 374 protein-coding genes were annotated, of which 54 426 (94.5%) genes have functional protein annotations. Approximately 735 Mb (62.37%) of the assembly were identified as repetitive elements, and among these, LTRs (40.53%) constitute the highest proportion, having made a major contribution to the expansion of genome size in A. splendens. Phylogenetic analysis revealed that A. splendens diverged from the Brachypodium distachyon-Hordeum vulgare-Aegilops tauschii subclade around 37 million years ago (Ma) and that a clade comprising these four species diverged from the Phyllostachys edulis clade ?47 Ma. Genomic synteny indicates that A. splendens underwent an additional species-specific whole-genome duplication (WGD) 18-20 Ma, which further promoted an increase in copies of numerous saline-alkali-related gene families in the A. splendens genome. By transcriptomic analysis, we further found that many of these duplicated genes from this extra WGD exhibited distinct functional divergence in response to salt stress. This WGD, therefore, contributed to the strong resistance to salt stress and widespread arid adaptation of A. splendens.© 2021 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.RenGuangpengGhttps://orcid.org/0000-0002-4052-9115State Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.JiangYanyouYState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.LiAoAState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.YinMouMState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.LiMinjieMState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.MuWenjieWState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.WuYingYState Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.LiuJianquanJhttps://orcid.org/0000-0002-4237-7418State Key Laboratory of Grassland Agro-Ecosystems, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, China.Key Laboratory of Bio-Resources and Eco-Environment of the Ministry of Education & State Key Lab of Hydraulics & Mountain River Engineering, College of Life Sciences, Sichuan University, Chengdu, China.eng2019QZKK0502the Second Tibetan Plateau Scientific Expedition and Research (STEP) program31971391the National Natural Science Foundation of China41901056the National Natural Science Foundation of ChinaXDB31010300the Strategic Priority Research Program of the Chinese Academy of SciencesJournal Article20210906EnglandPlant Biotechnol J1012018891467-7644IMAchnatherum splendensgenome assemblystress tolerancetranscriptomewhole-genome duplication20210818202011172021090120219760202197602021961712aheadofprint3448763110.1111/pbi.13699References, 2021</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>7.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Integrative lncRNA landscape reveals lncRNA-coding gene networks in the secondary cell wall biosynthesis pathway of moso bamboo (Phyllostachys edulis).</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Wang J, Hou Y, Wang Y, Zhao H<br><font color=gray><i>BMC genomics, 2021</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>8.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>"Diminishing returns" for leaves of five age-groups of Phyllostachys edulis culms.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Guo X, Shi P, Niinemets Ü, Hölscher D, Wang R, Liu M, Li Y, Dong L, Niklas KJ<br><font color=gray><i>American journal of botanyAm J Bot"Diminishing returns" for leaves of five age-groups of Phyllostachys edulis culms.1662-167210.1002/ajb2.1738Leaf mass (M) and lamina surface area (A) are important functional traits reported to obey a scaling relationship called "diminishing returns" (i.e., M ? A?>1 ). Previous studies have focused primarily on eudicots and ignored whether the age of leaves affects the numerical value of the scaling exponent (i.e., ?).The effect of age was examined using 1623 Phyllostachys edulis leaves from culms differing in age collected in Nanjing, China. The scaling relationships among leaf A, fresh mass (FM), and dry mass (DM) were evaluated using reduced major axis protocols. The bootstrap percentile method was used to test the significance of differences in ?-values.Overall, the numerical values of ? exceeded 1.0. The scaling relationship between FM and A was statistically more robust than that between DM and A. The scaling exponents of FM vs. A exhibited a "high-low-high-low-high" numerical trend from the oldest to the youngest age-group. FM increased linearly as culm age decreased; the leaf DM per unit area (LMA) exhibited a parabolic trend across the age-groups."Diminishing returns" is confirmed for all but one age-group of an important monocot species. The relationship between FM and A was statistically more robust than that between DM and A for each age-group. The FM per unit A decreased with increasing age-groups, whereas the middle age-groups had a greater LMA than the oldest and youngest age-groups. These data are the first to show that the age of shoots affects the scaling relationship between leaf mass and area.© 2021 Botanical Society of America.GuoXuchenXBamboo Research Institute, College of Biology and the Environment, Nanjing Forestry University, 159 Longpan Rd., Nanjing, 210037, China.ShiPeijianPBamboo Research Institute, College of Biology and the Environment, Nanjing Forestry University, 159 Longpan Rd., Nanjing, 210037, China.Tropical Silviculture and Forest Ecology, University of Göttingen, Büsgenweg 1, 37077, Göttingen, Germany.NiinemetsÜloÜInstitute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, 51006, Estonia.Estonian Academy of Sciences, Tallinn, 10130, Estonia.HölscherDirkDTropical Silviculture and Forest Ecology, University of Göttingen, Büsgenweg 1, 37077, Göttingen, Germany.WangRongRBamboo Research Institute, College of Biology and the Environment, Nanjing Forestry University, 159 Longpan Rd., Nanjing, 210037, China.LiuMengdiMBamboo Research Institute, College of Biology and the Environment, Nanjing Forestry University, 159 Longpan Rd., Nanjing, 210037, China.LiYirongYBamboo Research Institute, College of Biology and the Environment, Nanjing Forestry University, 159 Longpan Rd., Nanjing, 210037, China.DongLinaLAdministrative Bureau of Dr. Sun Yat-sen's Mausoleum, Nanjing, 210014, China.NiklasKarl JKJSchool of Integrative Plant Science, Cornell University, Ithaca, NY, 14853, USA.engJournal Article20210927United StatesAm J Bot03704670002-9122IMChinaPlant LeavesPoaceaeagebambooculmsleaf dry massleaf dry mass per unit arealeaf fresh massleaf fresh mass per unit area20210517202102072021051720219296020211021602021928651ppublish3458086310.1002/ajb2.1738REFERENCES, 2021</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>9.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Identification and Expression Analyses of Invertase Genes in Moso Bamboo Reveal Their Potential Drought Stress Functions.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Zhu C, Yang K, Li G, Li Y, Gao Z<br><font color=gray><i>Frontiers in genetics, 2021</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>10.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Insight into the Systematics of Novel Entomopathogenic Fungi Associated with Armored Scale Insect, <i>Kuwanaspis howardi</i> (Hemiptera: Diaspididae) in China.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Xu XL, Zeng Q, Lv YC, Jeewon R, Maharachchikumbura SSN, Wanasinghe DN, Hyde KD, Xiao QG, Liu YG, Yang CL<br><font color=gray><i>Journal of fungi (Basel, Switzerland), 2021</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br><br><br><table cellspacing=0 cellpadding=0 align=center><tr valign=bottom><td align=center><img src=p.png border=0></td><td align=center><img src=o_red.png border=0></td><td align=center><a href=http://ubio.org/portal/index.php?search=Phyllostachys+sp.&category=l&client=pubmed&startPage=2><img src=o_yellow.png border=0></a></td><td align=center><a 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