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Granulicatella adiacens
==<i>Brevibacillus laterosporus</i>, a bacterial biological control agent of Western Corn Rootworm.==


Lilian Sool-Esol
==Background==
MicrobeWiki
[[Image:PHIL_22882_lores.jpg|thumb|300px|right|This illustration depicts a three-dimensional (3D), computer-generated image, of a group of Gram-positive, Streptococcus agalactiae (group B Streptococcus) bacteria. The photo credit for this image belongs to Alissa Eckert, who is a medical illustrator at the [http://www.cdc.gov/ CDC].]]
Prof. Angela Hahn
<br>By Katya Naphtali<br>
16 December, 2013
                    Granulicatella adiacens


In 1961, Frenkel and Hirsch were the first to describe the Granulicatella bacteria genus as a nutritionally variant streptococcus (NVS) (Christensen et al., 2001). The Granulicatella genus is known to be a normal flora of the upper respiratory, gastrointestinal and urogenital tracts of humans. Normal flora is a microorganism that normally resides at a given site and under normal circumstances does not cause disease. Granulicatella adiacens whose genus name was formerly known as Abiotrophia because the bacteria genus is believed to be nutritionally deficient and even when samples are strained in the laboratory, a supplemented media with rich agar is used to culture samples of these bacteria. The word “Abiotrophia” means life nutrition deficiency (Bizzarro et al., 2011). Granulicatella adiacens, a species of this genus is found in the oral cavity, intestine and genitourinary tract of humans (Vandana et al., 2010).  Infections in these areas lead to endovascular, central nervous system, ocular, oral bone and joint and urogenital tracts infections. It is also associated with diseases like endocarditis, bacteremia and septic arthritis (Bizzarro et al., 2011). The G. adiacens has a normal commensal relationship with most the human mucosal surfaces which allows it to affect those areas of the human body and although it has the possibilities of infecting all these areas, it rarely causes diseases (Gardenier et al., 2011).  
Underneath the umbrella of “pesticides”, there are biologically synthesized alternatives to chemicals called microbial pesticides. This alternative uses different microorganisms to target specific pests that threaten production. The actual material used as a pesticide is naturally formed, biodegradable, highly specialized to specific pests rather than having widespread impact meaning they can be used in small quantities with large effects (EPA). Microbial pesticides are commonly used to address pest control in corn crops. Stats on the importance of corn in USA agriculture, and the threat corn poses to it (monoculture). It is under threat by the Western Corn Rootworm (CRW), which specialized just to parasitize corn monocropping productions (Cornell). A common management process to address CRW is the incorporation of microbial pesticides into corn GMO strains (background on melding process?) Bacillus thergo (Bt) is the most commonly used bacteria as a source of microbial pest control. There are multiple strains of GMO corn that contain toxins from Bt. Unfortunately, in some regions where these GMOs are overused, CRW has adapted resistance to this toxin (Cornell). This drives researchers to search for similarly effective bacteria to replace their current technology.
<br>
<br>


G. adiacens bacteria are gram positive with streptococcus morphology. Sometimes it appears as cocci, coccobacilli or rod shaped cells. The cellular morphology depends on growth conditions. Their sizes range from 0.4 to 0.6 microns. G+C content of G. adiacens bacteria DNA is around 36.6 – 37.4 mol%. This bacteria is also known to be monophyletic. It is a facultative anaerobe which can survive in both aerobic and anaerobic environments with a temperature of about thirty seven (37) degrees Celsius (Collins MD et al., 2000).
==Western Corn Rootworm==
A Granulicatella genus bacterium is a fastidious microorganism; meaning, it has a complex nutritional requirement and can only grow in a specific diet of nutrients. Most fastidious microorganisms require blood or hemoglobin, amino acids and some vitamins to grow. These types of microorganisms are known to cause infections in humans and other organisms that have blood or hemoglobin. This makes its identification difficult because a unique culture media is required for the growth of isolates of G. adiacens. The type of media used to culture these fastidious bacteria in the laboratory is known as BD Chocolate Agar. The chocolate agar is supplemented with hemoglobin (blood) and yeast concentrate. There are two common types of chocolate agars used; the BD Chocolate Agar (GC II Agar with IsoVitalex) and the BD Chocolate Agar (Blood Agar No. 2 Base). The GC II Agar with IsoVitalex base nutrients contains blood; casein; selected meat peptones as a source of nitrogen; phosphates, which helps to regulate pH; and corn starch which helps to neutralize toxic fatty acids that may be present in the agar. The Blood Agar base is sometimes used as a substitute. The Blood base agar contains blood, liver digest, Proteose peptone and yeast extract which serves as a source of nitrogen and other vitamins for the growth of the microbe that needs to be cultured. However, Granulicatella adiacens is plated on the BD Chocolate Agar (GC II Agar with IsoVitalex) to reveal growth of nutritionally variant streptococci. Most laboratories use either horse or sheep blood as a source of hemoglobin. A way of identifying these bacteria is that when plated on a BD Chocolate Agar (Blood Agar No. 2 Base), it shows a very slow growth compare to BD Chocolate Agar (GC II Agar with IsoVitalex) (Perkins et al., 2003 & “Instructions for Use – Ready-To-Use Plated Media." 2011). 


Scientists find this bacteria genus difficult to identify because it also appears as a gram negative bacteria sometimes and it has a range of form of shapes in which it appears which makes it uneasy to diagnose patience suffering with infections or diseases from this microbe. On normal circumstance, clinical diseases caused by G. adiacens are identified based on their phenotypic character by 16S rRNA gene sequencing. (Collins MD et al., 2000).
The Western Corn Rootworm (latin WCRW) is a species of Coleoptera (beetle) that specializes only in eating species of corn (latin). These beetles are ¼” long and yellow with black stripes along the sides of their elytra. They only have a single generation a year, because their life cycle is dependent on corn developmental stages (cornell source). Adult beetles lay their egg clusters below the soil surface for generation the following year, before dying themselves in the first winter frost (cornell). These eggs hatch during late May and early June into larva that are long small and white but sport brown heads with mandibles. They spend most of their larval stage feeding on the root zone of soil. They tunnel through dirt until finding corn roots to feed on. This tunneling can kill an entire root or break the tips of them, this prevents the plant from recieving enough nutrients causing it to either fall over, or greatly damage growth. The plant can be weakened in terms of stunting growth, reducing the yield amount, or even reducing the size of each ear of corn (cornell source). These larva undergo three instars of molting over a 4-6 week period (Iowa extension source). Before they pupate within the soil to undergo a compleme metamorphosis of their bodies into their adult forms. 5-10 days after pupation, CRW emerge as adults coinciding with when the corn plants flower (Iowa extension source). CRW beetles still consume during their adult stages, mainly corn pollen and corn silk, sometimes their leaves as well. Corn silk and pollen are both are needed for corn to pollinate eachother, so adults reduce their ability to reproduce (cornell source). Despite these negative impact, it is still less than the damage caused during their larval stage feeding on roots (Godfrey et al. 1993). In laying their eggs for the next generation, adult CRW are relatively stagnant species and do not tend to move fields for laying their eggs. As a result a common pest management technique for CRW is crop rotation with soy beans. Each year switching corn out for soybean plants prevents CRW from parasitizing their roots, causing CRW larva populations to drop due to the lack of their niche corn food source. Unfortunately, in some cases CRW have adapted to crop rotation schedules and have begun laying their eggs in soybean fields in anticipation of crop rotation to corn the following Spring when their offspring hatch (cornell source). This species adapts quickly due to its dependence on corn as its sole food source (Rausher et al.) As a result, other forms of pesticides are needed to be used alongside crop rotation (cornell source). One of these techniques include GMO corn strains that can be more resistant to these pests than non-GMO crops. A common GMO strain used to address CRW pest threats is Bt resistant corn.


Taxonomy:
NEED TO PUT INTO CITATION & FIGURE
Bacteria,
Firmicutes,
Bacilli,
Lacotabacillales,
Carnobacteriaceae,
Granulicatella,
Granulicatella adiacens.
BIOS: Taxonomy (http://www.gbif.org/species/119570537)


Below are links to pictures of G. adiacens culture growth of isolated colonies after two days of streaking each plate. We notice that there is a slower growth on the Blood base Agar. (Please Click on the links to view pictures)
==<i>Brevibacillus laterosporus</i>==
 
A number of Bacillus species have been investigated for pesticidal properties due to their formation of specialized biotoxins. Different species currently in use for biopesticides include: _____. While Bt is commonly regarded as the “most effective??” biopesticide, it has become less effective as CRW adapt to overcome its toxins (SOURCE). In recent years BL has become a bacterial species of more interest due to the speed in which it produces biotoxins, even if less powerful of a toxin than Bt produced (Ghazanchyan et al. & Oliviera et al.).
Sample of G. adiacens growth in BD Chocolate Agar (GC II Agar with IsoVitalex)
(http://hampc168.blog.163.com/blog/static/1697976200701910515808/)
 
BD Chocolate Agar (Blood Agar No. 2 Base) showing slow rate of G. adiacens growth
(http://hampc168.blog.163.com/blog/static/1697976200701910515808/)
A case of an infected endocarditis
(http://upload.wikimedia.org/wikipedia/commons/7/73/Haemophilus_parainfluenzae_Endocarditis_PHIL_851_lores.jpg)


Brevibacillus laterosporus is rod-shaped with a gram-negative cell wall and relies on access to oxygen for metabolism. This bacteria produces a number of products including enzymes and prebiotic materials that function as an insecticides (Orlova et al.) B. lat can be sources from environmental soil, plants, and even the insects themselves (Ghazanchyan et al.). This bacteria produces endospores. On one end of each spore, this species of bacteria can be identified by its production of canoe-shaped paraposal bodies (a crystallized shell that contains endotoxins that can be used as pesticides (Ghazanchyan et al.). This bacteria has had almost an 100% effectiveness rate in the elimination of Coleopteran (beetles) pests depending on the strain, this was most effective in targeting these species during their larval stage, especially during their second instar (Favret et al.).


This species is of interest by biopesticide scientists due to the high rate in which it produces these paraposal bodies (pesticide containing structures) (Ghazanchyan et al.). Specialization??? These paraposal bodies can be HOW ARE THEY USED Bt resistant corn which uses toxins produced by Bacillus thergoneous to prevent parasitation. These Bt toxin BACKGROUND?? but if they are used to often CRW can become resistant to these strains. Bt is the most commonly used strain of resistant corn, and due to its over use, there are now multiple resistant strains of CRW both in Northwest Iowa and Southeast Minnesota. While these resistant strains mostly cannot move from field to field without accidental human transportation, they fortell the immunity that may be seen in other regions over-using this same resistant strain technique. As a result, new bacterial strains are being investigated to create new resistant corn GMO archetypes. Similar to crop rotation, a rotation of toxins may introduce more variety in pest control techniques that they will be less able to adapt to (cornell source).


==Pathology & Experimental Use==
Include some current research, with at least one figure showing data.<br>
<br>


==Real World Impacts==


==Conclusion==
Root Worms


 
==References==
 
<references />
References:
<br><br>Authored for BIOL 238 Microbiology, taught by [https://biology.kenyon.edu/slonc/slonc.htm Joan Slonczewski], 2023, [http://www.kenyon.edu/index.xml Kenyon College]
 
Christensen JJ, Facklam RR. 2001. Granulicatella and Abiotrophia species from Human Clinical Specimens. J. Clin. Microbiol. 39(10): 3520-3523 http://jcm.asm.org/content/39/10/3520.full
 
Bizzarro MJ, Callan DA, Farrel PA, Dembry L-M, Gallagher      PG. 2011. Granulicatella Adiacens and    Early-Onset Sepsis in Neonate. Emrg Infect Dis 17(10): 1971-1973
http://jmm.sgmjournals.org/content/61/Pt_6/755.full
 
Vandana KE, Mukhopadhyay C, Rau NR, Ajith V, Rajath P. 2010. Native Valve Endocarditis and Femoral Emolism due to Granulicatella Adiacens: A Rare Case Report. Braz J Infect Dis 14(6) http://dx.doi.org/10.1590/S1413-86702010000600015
 
Perkins A, Osorio S, Serrano O, Del Ray MC, Sarria C, Domingo D, Lopez-Brea M. 2003. A Case of Endocarditis due to Granulicatella adiacens. Clinical Microbiology and Infection 9(6): 576-577 http://onlinelibrary.wiley.com/doi/10.1046/j.1469-0691.2003.00646.x/full
 
Gardenier JC , Hranjec T, Sawyer RG, Bonatti H. 2011. Granulicatella Adiacens Bacteremia in an Elderly Trauma Patient. Surg Infect (Larchmt) 12(3): 251-3
http://www.ncbi.nlm.nih.gov/pubmed/21524203
 
Collins MD, Lawson PA. 2000. The Genus Abiotrophia (Kawamura et al.) is not Monophyletic: Proposal of Granulicatella gen. nov., Granulicatella adiacens comb. nov., Granulicatella Elegans comb. nov. and Granulicatella Balaenopterae comb. nov. International Journal of Systematic and Evolutionary Microbiology. 50:365-369
http://ijs.sgmjournals.org/content/50/1/365.full.pdf
 
Collins MD, Lawson PA. 2000: Granulicatella adiacens (Bouvet et al., 1989) BIOS:Baceteriology Insight Orienting System in the Catalogue of Life in The Catalogue of Life Partnership: Catalogue of Life.
http://www.gbif.org/species/119570537
 
“Instructions for Use – Ready-To-Use Plated Media." Bd.com. Becton Dickinson, Sept. 2011. Web. 12 Dec. 2013.
http://www.bd.com/resource.aspx?IDX=8994
 
== Oenococcus kitaharae ==
 
Samantha Hosch
 
December 16,2013
 
Microbiology
 
Dr. Hahn
 
 
Lineage
 
• Kingdom- Bacteria
 
• Division- firmicutes
 
• Class- Bacilli
 
• Family- Lactobacillus
 
• Genius- Oenococcus
 
• Species- Kitaharae
 
 
 
No picture available
 
Basic
 
Oenococcus kitaharae is a bacteria microbe that is gram positive. It can make acid from maltose. It also helps with D-glucose fermentation. Oenococcus kitaharae is made up 42 percent guanine cytosine bonds according too Lactobacillus florum sp. nov., a fructophilic species isolated from flowers by Endo, Futagawa-Endo, Sakamoto, Kitahara, and Dicks.
 
It does not have the mutSL gene, which fixes some mutations and is believed by scenticsts  to have not had this gene for a long time. According to the article Role of Hypermutability in the evolution of the genus Oenococcus kitaharae has a rate of 1/13 protein mutation and that most of it its mutations are random ones without any real meaning.
 
Oenococcus kitaharae can be grown in the lab and cultured but it does take it own time to do so, for to five days longer than most similar bacteria.
 
O. kitaharae can not break down anything made of  organic acids but is lactic acid loving bacteria microbe. This explains why it was in shochu residue and not wine.
 
 
History
 
Oenococcus kitaharae was discovered in 2006. It is currently the second member of only a two-member genus. Its genus partner is Oenococcus onei, which has been renamed.
 
 
Information
 
The Oenococcus genus is known for their ability to be involved with fermentation for this reason and the fact that it is present in wine the genus is studied often. However onei and kitaharae have different living environments but can have crossovers, this has been shown through PCR reactions from wine samples.
Some sources show that O. kitaharae can cause fermentation in some of O. onei environments well other show that it does just want it needs to stay a live.
No matter what there is no disagreement on the fact the fact that they can be found together.
 
Oenococcus kitaharae is much able to survive in difficult environment. Apparently, It has more DNA in the Oenococcus kitaharae. The extra pieces of DNA resemble that of a virus according an article titled Comparative Genomics of Oenococcus kitaharae. It is found in Japan in several things including flowers.
 
 
 
Sources
 
Borneman, A. R., McCarthy, J. M., Chambers, P. J., & Bartowsky, E. J. (2012). Functional divergence in the genus oenococcus as predicted by genome sequencing of the newly- described species, oenococcus kitaharae. PLoS One, 7(1), e29626. doi: 10.137
 
Endo, A., Futagawa-Endo, Y., Sakamoto, M., Kitahara, M., & Dicks, D. M. T. (2010). Lactobacillus florum sp. nov., a fructophilic species isolated from flowers. International Journal of Systematic and Evolutionary Microbiology, 60, 2478–2482. doi: 10.1099/ijs.0.019067-0
 
Endo, A., & Okada, S. (2006). Oenococcus kitaharae sp. nov., a non-acidophilic and non-    malolactic-fermenting oenococcus isolated from a composting distilled shochu residue. International Journal of Systematic and Evolutionary Microbiology, (56), 2345-2348. doi: 10.1099/ijs.0.64288-0
Gonzalez-Arenzana, L., Lopez, R., Santamaría, P., & Lopez-Alfaro, I. (2013). Dynamics of lactic acid bacteria populations in rioja wines by pcr-dgge comparison with culture-dependent methods . Appl Microbial Biotechnol, (97), 6931-6941. doi: 10.1007/s00253-013-4974-y
Marcobal, A. M., Sela , D. A., Wolf, Y. I., Makarova, K. S., & Mills, D. A. (2008). Role of hypermutability in the evolution of the genus oenococcus. Journal Of Bacteriology, 190(2), 564-570. doi: 10.1128/JB.01457-07
 
Michlmayr, H., Schümann, C., Wurbs, P., arreira Braz da Silva, N. M., Rogl, V., Kulbe, K. D., & del Hierro, A. M. (2010). A β-glucosidase from oenococcus oeni atcc baa-1163 with potential for aroma release in wine: Cloning and expression in e. coli. World J Microbiol Biotechnol, 26(7), 1281-1289. doi: 10.1007/s11274-009-0299-5

Latest revision as of 00:06, 7 November 2023

Brevibacillus laterosporus, a bacterial biological control agent of Western Corn Rootworm.

Background

This illustration depicts a three-dimensional (3D), computer-generated image, of a group of Gram-positive, Streptococcus agalactiae (group B Streptococcus) bacteria. The photo credit for this image belongs to Alissa Eckert, who is a medical illustrator at the CDC.


By Katya Naphtali

Underneath the umbrella of “pesticides”, there are biologically synthesized alternatives to chemicals called microbial pesticides. This alternative uses different microorganisms to target specific pests that threaten production. The actual material used as a pesticide is naturally formed, biodegradable, highly specialized to specific pests rather than having widespread impact meaning they can be used in small quantities with large effects (EPA). Microbial pesticides are commonly used to address pest control in corn crops. Stats on the importance of corn in USA agriculture, and the threat corn poses to it (monoculture). It is under threat by the Western Corn Rootworm (CRW), which specialized just to parasitize corn monocropping productions (Cornell). A common management process to address CRW is the incorporation of microbial pesticides into corn GMO strains (background on melding process?) Bacillus thergo (Bt) is the most commonly used bacteria as a source of microbial pest control. There are multiple strains of GMO corn that contain toxins from Bt. Unfortunately, in some regions where these GMOs are overused, CRW has adapted resistance to this toxin (Cornell). This drives researchers to search for similarly effective bacteria to replace their current technology.

Western Corn Rootworm

The Western Corn Rootworm (latin WCRW) is a species of Coleoptera (beetle) that specializes only in eating species of corn (latin). These beetles are ¼” long and yellow with black stripes along the sides of their elytra. They only have a single generation a year, because their life cycle is dependent on corn developmental stages (cornell source). Adult beetles lay their egg clusters below the soil surface for generation the following year, before dying themselves in the first winter frost (cornell). These eggs hatch during late May and early June into larva that are long small and white but sport brown heads with mandibles. They spend most of their larval stage feeding on the root zone of soil. They tunnel through dirt until finding corn roots to feed on. This tunneling can kill an entire root or break the tips of them, this prevents the plant from recieving enough nutrients causing it to either fall over, or greatly damage growth. The plant can be weakened in terms of stunting growth, reducing the yield amount, or even reducing the size of each ear of corn (cornell source). These larva undergo three instars of molting over a 4-6 week period (Iowa extension source). Before they pupate within the soil to undergo a compleme metamorphosis of their bodies into their adult forms. 5-10 days after pupation, CRW emerge as adults coinciding with when the corn plants flower (Iowa extension source). CRW beetles still consume during their adult stages, mainly corn pollen and corn silk, sometimes their leaves as well. Corn silk and pollen are both are needed for corn to pollinate eachother, so adults reduce their ability to reproduce (cornell source). Despite these negative impact, it is still less than the damage caused during their larval stage feeding on roots (Godfrey et al. 1993). In laying their eggs for the next generation, adult CRW are relatively stagnant species and do not tend to move fields for laying their eggs. As a result a common pest management technique for CRW is crop rotation with soy beans. Each year switching corn out for soybean plants prevents CRW from parasitizing their roots, causing CRW larva populations to drop due to the lack of their niche corn food source. Unfortunately, in some cases CRW have adapted to crop rotation schedules and have begun laying their eggs in soybean fields in anticipation of crop rotation to corn the following Spring when their offspring hatch (cornell source). This species adapts quickly due to its dependence on corn as its sole food source (Rausher et al.) As a result, other forms of pesticides are needed to be used alongside crop rotation (cornell source). One of these techniques include GMO corn strains that can be more resistant to these pests than non-GMO crops. A common GMO strain used to address CRW pest threats is Bt resistant corn.

NEED TO PUT INTO CITATION & FIGURE

Brevibacillus laterosporus

A number of Bacillus species have been investigated for pesticidal properties due to their formation of specialized biotoxins. Different species currently in use for biopesticides include: _____. While Bt is commonly regarded as the “most effective??” biopesticide, it has become less effective as CRW adapt to overcome its toxins (SOURCE). In recent years BL has become a bacterial species of more interest due to the speed in which it produces biotoxins, even if less powerful of a toxin than Bt produced (Ghazanchyan et al. & Oliviera et al.).

Brevibacillus laterosporus is rod-shaped with a gram-negative cell wall and relies on access to oxygen for metabolism. This bacteria produces a number of products including enzymes and prebiotic materials that function as an insecticides (Orlova et al.) B. lat can be sources from environmental soil, plants, and even the insects themselves (Ghazanchyan et al.). This bacteria produces endospores. On one end of each spore, this species of bacteria can be identified by its production of canoe-shaped paraposal bodies (a crystallized shell that contains endotoxins that can be used as pesticides (Ghazanchyan et al.). This bacteria has had almost an 100% effectiveness rate in the elimination of Coleopteran (beetles) pests depending on the strain, this was most effective in targeting these species during their larval stage, especially during their second instar (Favret et al.).

This species is of interest by biopesticide scientists due to the high rate in which it produces these paraposal bodies (pesticide containing structures) (Ghazanchyan et al.). Specialization??? These paraposal bodies can be HOW ARE THEY USED Bt resistant corn which uses toxins produced by Bacillus thergoneous to prevent parasitation. These Bt toxin BACKGROUND?? but if they are used to often CRW can become resistant to these strains. Bt is the most commonly used strain of resistant corn, and due to its over use, there are now multiple resistant strains of CRW both in Northwest Iowa and Southeast Minnesota. While these resistant strains mostly cannot move from field to field without accidental human transportation, they fortell the immunity that may be seen in other regions over-using this same resistant strain technique. As a result, new bacterial strains are being investigated to create new resistant corn GMO archetypes. Similar to crop rotation, a rotation of toxins may introduce more variety in pest control techniques that they will be less able to adapt to (cornell source).

Pathology & Experimental Use

Include some current research, with at least one figure showing data.

Real World Impacts

Conclusion

Root Worms

References



Authored for BIOL 238 Microbiology, taught by Joan Slonczewski, 2023, Kenyon College

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